Difference between revisions of "Astronomy/DSOs"

Revision as of 04:36, 12 August 2020

The Astronomy DSO list specifies which Deep Space Objects may be covered in the Astronomy event that year, and is roughly analogous to the Deep Sky Objects typically found in the rules for the Division B event Reach for the Stars. It is typically listed in section 3.c of the rules.

General Tips

The DSO list can seem daunting at first. A good strategy for learning them is to take personalized notes from various sources while including images for identification.

Categorize the DSOs by their types or stages in stellar evolution (e.g. Brown Dwarfs, Red Giants, White Dwarfs, Cepheid Variables, Supernova remnants, Globular Clusters). Take notes on each of these stages, as well as what makes them significant in the study of astronomy.
- For example - a Type Ia Supernova can either be the result of collision of two white dwarfs or accretion of matter from a stellar companion (often reaching the Red Giant stage), and its mostly uniform brightness can help astronomers determine distance to distant galaxies using the distance modulus.
For each DSO, take notes on what makes it unique and significant. The Chandra X-ray Observatory posts videos at the start of the competition season that briefly explain each object's significance. The Chandra photo album and NASA's APOD are also good resources for images and information on DSOs. For Variable stars, AAVSO is a helpful resource.
Find photos (and light curves for variable stars) of the Deep Space Objects, as many as possible and across all wavelengths. Almost all tests include tasks to identify DSOs based on images or find all images of a certain DSO/category, and more difficult tests sometimes include more obscure images of the DSOs. Include the wavelength of light a certain image was taken in.
Take notes on miscellaneous information about each DSO, including, but not limited to: constellation, alternate names, magnitude, stellar classification, right ascension/declination, and color index.
Take practice tests. They can help reveal weaknesses in any notes on Deep Space Objects.
If certain information about a DSO is given (such as the the masses and the separation of the binary system), calculate the period. Use information in any pre-existing notes to calculate other values before the test, saving valuable time.

2020 DSOs

2020 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
SN UDS10Wil			Cetus			10.5 Gly, 3.2 Gpc	02h 17m 46.3s	-05° 15′ 24.00″
SN UDS10Wil			SN UDS10Wil is the furthest supernova so far of the type used to measure cosmic distances. It was discovered by the Hubble Space Telescope and was discovered as part of a three-year Hubble program that started in 2010 to survey faraway Type 1a supernovae known as the CANDELS survey.
NGC 2623		[[]]	Cancer	13.36		250 Mly, 76.7 Mpc	08h 38m 24.1s	+25° 45′ 16.70″
NGC 2623		[[]]	NGC 2623 is the result of a major collision and subsequent merger between two galaxies. The merger is going through late stages and is thought to eventually resemble what the Milky Way will look like when it collides with our neighboring galaxy, Andromeda in 4 billion years.
GRB 150101B		[[]]	Virgo			1.7 Gly, 0.52 Gpc	12h 32m 04.96s	−10° 56′ 00.7″	Chandra SIMBAD
GRB 150101B		[[]]	GRB 150101B is a likely merger of 2 neutron stars 1.7 billion light years from Earth. It is fairly similar to GW170817, the first source shown to emit gravitational waves and light.
JKCS 041		[[]]	Cetus			~9.9 Gly, ~ 3.04 Gpc	02h 26m 44s	−04° 41′ 37″	Chandra
JKCS 041		[[]]	JKCS 041 is a group of galaxies about 9.9 billion light years. it is the farthest galaxy group from Earth discovered. It has a redshift of 1.9.
MACS J0717.5+3745	175px	175px	Auriga			5.4 Gly, 1.7 Gpc	07h 17m 36.50s	+37° 45′ 23″	Chandra
MACS J0717.5+3745	175px	175px	MACS J0717.5+3745 is a massive galaxy cluster where 4 galaxy subclusters are colliding.
MACS J1149.5+2223		[[]]	Leo			Approximately 5 billion light-years	11h 49m 36.3s	+22° 23′ 58.1″	Chandra Frontier Fields
MACS J1149.5+2223		[[]]	MACS J1149.5+2223 is a galaxy cluster which bends light from more distant objects due to its huge mass through gravitational lensing.
Bullet Cluster (1E 0657-56)			Carina			3.7 billions light-years, 1.141 Gpc	06h 58m 37.9s	−55° 57′ 0″
Bullet Cluster (1E 0657-56)			The Bullet Cluster is a system of two colliding galaxy clusters. Most of its mass is concentrated around galaxies instead of gas, which could be evidence for the existence of dark matter.
H1821+643		[[]]	Draco	14.24		3.4 Gly, 1.0 Gpc	18h 21m 57.24s	+64° 20′ 36.23″	Chandra SIMBAD
H1821+643		[[]]	H1821+643 is a luminous quasar which has been used to search for the WHIM. At its core is one of the most massive black holes known.
GOODS-S 29323			Fornax			13.2 Gly, 4.05 Gpc	03h 32m 28s	–27° 48′ 30″	Chandra
GOODS-S 29323			GOODS-S 29323 is a direct collapse black hole seed candidate. It could support a model of SMBH formation which would allow them to form quickly in the early universe.
H2356-309			Sculptor			Approximately 2 billion light-years	23h 59m 07.9s	-30° 37′ 41.00″	Chandra SIMBAD
H2356-309			H2356-309 is a blazar which was used to detect WHIM (in the form of an oxygen absorption line) in the Sculptor Wall.
152156.48+520238.5		[[]]	Boötes			Approximately 10.75 billion light-years	15h 21m 56.5s	+52° 02′ 38.50″	Chandra
152156.48+520238.5		[[]]	152156.48+520238.5 is a quasar which has similar properties to the quasar PHL 1811. The disk around it may be puffed up (from high accretion rates), causing it to be fainter in X-rays and have weak emission lines.
153714.26+271611.6		[[]]	Corona Borealis			Approximately 11.03 billion light-years	15h 37m 14.3s	+27° 16′ 11.6″	Chandra
153714.26+271611.6		[[]]	153714.26+271611.6 is a quasar similar to PHL 1811. Like 152156.48+520238.5, it has weak emission lines probably caused by a puffed-up accretion disk.
222256.11-094636.2		[[]]	Aquarius			Approximately 11.48 billion light-years	22h 22m 56.10s	-09° 46′ 36.20″	Chandra
222256.11-094636.2		[[]]	222256.11-094636.2 is a quasar similar to PHL 1811. Like 152156.48+520238.5, it has weak emission lines and weak X-ray emission, likely caused by a puffed-up disk.
PSS 0133+0400	[[]]	[[]]	Pisces			Approximately 10.1 billion light-years	01h 31m 04.8s	+03° 45′ 37.8″	Chandra
PSS 0133+0400	[[]]	[[]]	PSS 0133+0400 is a quasar which was used in a study to find out that the strength or amount of dark energy may be increasing.
PSS 0955+5940	[[]]	[[]]	Ursa Major			Approximately 10.2 billion light-years	09h 51m 37.4s	+59° 54′ 43.6″	Chandra
PSS 0955+5940	[[]]	[[]]	PSS 0955+5940 is a quasar which was used in the same study as PSS 0133+0400.
GW151226	[[]]	[[]]				Approximately 1.4 billion light-years	n/a	n/a	LIGO
GW151226	[[]]	[[]]	GW151226 was a Gravitational-Wave signal observed by the twin detectors of the Laser Interferometer Gravitational-Wave Observatory (LIGO) on December 26, 2015 at 03:38:53 UTC making it the second definitive observation of a merging binary black hole system detected by the LIGO Scientific Collaboration and Virgo Collaboration.
M87			Virgo	7.19		53.5 ± 1.6 Mly, 16.4 ± 0.5 Mpc	12h 30m 49.42338s	+12° 23′ 28.0439″	Chandra
M87			M87 is a nearby elliptical galaxy with an active galactic nucleus. The central SMBH of M87 was imaged by the Event Horizon Telescope as the first black hole to be imaged.
3C 273			Virgo	12.9		2.443 Gly, 749 Mpc	12h 29m 06.7s	+02° 03′ 09″	AAVSO Chandra
3C 273			3C 273 is the most optically bright quasar, and also one of the closest, in our night sky. Along with 3C 48, it was the first object to be identified as what we now know to be quasars.

Previous DSO Lists

2019 DSOs

2019 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
NGC 5195	175px		Canes Venatici	10.5		25 Mly, 7.7 Mpc	13h 29m 59.6s	+47° 15′ 58″
NGC 5195	175px		A dwarf galaxy that is interacting with the Whirlpool Galaxy. Because of its interaction with the Whirlpool Galaxy, it is highly distorted. In the picture, the Whirlpool Galaxy is on the left and NGC 5195 is the smaller galaxy to the right.
IC 10			Cassiopeia	10.4		2.2 Mly, 660 kpc	00h 20m 17.3s	+59° 18′ 14″
IC 10			An irregular starburst galaxy featuring a large amount of Wolf-Rayet stars.
SPT 0346-52			Horologium			12.7 billion light years	03h 46m 41.13s	-52° 05' 02.11"
SPT 0346-52			A starburst galaxy that resulted from a collision between two galaxies. It has one of the highest star formation rates of any galaxy.
M81/M82		175px	Ursa Major	6.94		8.5 ± 1.3 Mly (2.6 ± 0.4 Mpc)	09h 55m 33.2s	+69° 3′ 55″
M81/M82		175px	M81, also known as "Bode's Galaxy", is a large spiral galaxy. It is the center of the M81 group. M82, also known as the "Cigar Galaxy", is a starburst galaxy in the same group as M81 (same region of sky).
ESO 137-001			Triangulum Australe	Unknown apparent magnitude; apparent size 1.23 arcminutes × 0.55 arcminutes		220 million ly	16h 13m 27.305s	−60° 45′ 50.59″
ESO 137-001			ESO 137-001 is a barred spiral galaxy. As the galaxy moves to the center of the Abell 3627 cluster at 7 million kilometers per hour, it is stripped by hot gas thus creating a 260,000 light-year long tail. The intergalactic gas in the Abell 3627 is 180 million degrees Fahrenheit which causes star formation in the tails.
SN 2014			Ursa Major	n/a	n/a	11,500,000 ly (3,500,000 pc)	9h 55m 42.217s	69° 40′ 26.56″
SN 2014			SN 2014J was a type-Ia supernova in Messier 82 (the 'Cigar Galaxy', M82) discovered in mid-January 2014 by chance during an undergrad astronomy course at the University of London Observatory. It was the closest type-Ia supernova discovered for 42 years, and none have been closer as of 2018.
Phoenix Cluster			Phoenix			5.7 billion light years	23h 44m 40.9s	−42° 41′ 54″
Phoenix Cluster			The Phoenix Cluster (SPT-CL J2344-4243) is a massive, type I galaxy cluster in the Phoenix Constellation.It is one of the most massive galaxy clusters known, with the mass on the order of 2×1015 M☉. Most of the mass of the Phoenix Cluster is in the form of dark matter and its intracluster medium. The vast stellar halo of the Phoenix Cluster central galaxy extends to over 1.1 million light years from the center, making it one of the largest galaxies known. It is 22 times the diameter of our galaxy, and its starburst activity suggests that the galaxy is still growing larger. More X-Ray production than any other massive cluster.
NGC 4993			Hydra	13.32	-20.85	44.1 Mpc (144 Mly) / 130.5 million light years	13h 09m 47.7s	−23° 23′ 02″
NGC 4993			NGC 4993 is the site of the first astronomical event detected in both electromagnetic and gravitational radiation, the collision of two neutron stars, an event that provided direct confirmation that binary neutron star collisions produce short gamma-ray bursts.
47 Tucanae			Tucana	+4.09		4.0 ± 0.35 kpc (13,000 ± 1,100 ly)	00h 24m 05.67s	–72° 04′ 52.6″
47 Tucanae			47 Tucanae, 47 Tuc (or NGC 104) is a globular cluster that is 120 light years across. 47 Tuc can be seen with the naked eye, holding the position of second brightest globular cluster after Omega Centauri. X9 (closest orbit between star and black hole, containing a white dwarf and a stellar-mass black hole in orbit).
Chandra Deep Field South			Fornax	n/a	n/a	n/a	3h 32m 28.0s	−27° 48′ 30″	n/a
Chandra Deep Field South			The Chandra Deep Field Survey South is a photograph taken for over 8 million seconds exposure by the Chandra Deep Field Telescope. It contains at least 5,000 black holes, which makes it a topic of interest for astronomy.
Cen A			Centaurus	6.84		13h 25m 27.6s	−43° 01′ 09″
Cen A			Either an elliptical or lenticular galaxy. One of the closest and brightest radio galaxies to Earth, and is a starburst galaxy. contains a black hole in the middle roughly at 55 million stellar masses. By taking radio observations of the jet separated by a decade, astronomers have determined that the inner parts of the jet are moving at about half of the speed of light. X-rays are produced farther out as the jet collides with surrounding gases resulting in the creation of highly energetic particles. The X-ray jets of Centaurus A are thousands of light-years long, while the radio jets are over a million light-years long.
M100		175px	Coma Berenices	9.5		12h 22m 54.9s	+15° 49′ 21″	55 Mly
M100		175px	Messier 100 is a Grand Design intermediate spiral galaxy, which also is classified as a starburst galaxy. It is located in the Virgo cluster. The galaxy is estimated to contain about 400 billion stars.
Abell 400/3C 75			Cetus			02h 57m 38.6s	+06° 02′ 00″	100 Mpc (326 Mly)
Abell 400/3C 75			Abell 400 is a galaxy cluster which contains the galaxy NGC 1128 with two supermassive black holes (3C 75) spiraling towards merger. The black holes are an estimated 25,000 light years apart, and thus will take millions of years to collide. Should the two supermassive black holes merge, they will form a single super-supermassive black hole. 3C-75, the system containing the black holes, has four radio jets (two from each accreting black hole). It is travelling at 1200 kilometers per second through the cluster plasma, causing the jets to be swept back.
Antennae Galaxies / NGC 4038 & NGC 4039			Corvus	11.2 / 11.1		12h 01m 53.0s / 12h 01m 53.6s	−18° 52′ 10″ / −18° 53′ 11″	45 Mly / 65 Mly
Antennae Galaxies / NGC 4038 & NGC 4039			NGC 4038/NGC 4039 are a pair of interracting galaxies currently undergoing Starburst, in which the collision of gas and dust are influencing accelerated star formation. The nuclei of galaxies are expected to eventually form a single larger galaxy.
Sagittarius A*			Sagittarius	n/a	n/a	17h 45m 40.0409s	−29° 0′ 28.118″	7,860 ± 140 ± 40 pc
Sagittarius A*			Sgr A is a complex radio source in the center of the Milky Way galaxy. It is shrouded at optical wavelengths by hydrogen clouds, however can be detected due to it's large compact radio signature. Consists of three components: Sagittarius A East, a supernova remnant, Sagittarius A West, a spiral structure, and a complex radio signature in the center Sagittarius A*, which is assumed to be a supermassive black hole.

2018 DSOs

2018 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
AG Carinae			Carina	6.96	~-8 (visible band)	6000 parsecs	10h 56m 11.58s	-60° 27’ 12.8056"	SIMBAD AAVSO
AG Carinae			One of the brightest stars in the Milky Way, surrounded by a nebula. Apparent brightness can vary drastically between 5.7 and 8.3. This star is considered in transition from a blue supergiant to a WR-star.
Alpha Orionis			Orion	0.2-1.2	Absolute	~643 ly	05h 55m 10.3053s	+07° 24' 25.426"	AAVSO, Wikipedia
Alpha Orionis			More commonly known as Betelgeuse, this semi-regular (SRc) pulsating red supergiant will likely explode as a type II supernova within the next million years.
ASASSN-15lh			Indus	16.9	-23.5 (ultraviolet band)	1,171 megaparsecs	22h 2m 15.45s	-61° 39’ 34.64”	External Links
ASASSN-15lh			Supernova detected by the All Sky Automated Survey. It is either the most luminous type I supernova ever discovered, called a hypernova, or a tidal disruption event.
Circinus X-1	Image 1	Image 2	N/A	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
Circinus X-1	Image 1	Image 2	Neutron star orbiting a conventional super-massive star.
DEM L241	Image 1	Image 2	Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	[1]
DEM L241	Image 1	Image 2	Description of the DSO, important characteristics, etc.
Geminga			Gemini	Apparent	Absolute	815 ly	06h 33m 54.15s	+17° 46′ 12.9″	[2]
Geminga			Geminga is likely a decaying core of a Type II Supernova. It is highly visible in the gamma-ray spectrum.
HR 5171 A	Image 1	Image 2	Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
HR 5171 A	Image 1	Image 2	Description of the DSO, important characteristics, etc.
IC 443	Image 1	Image 2	Gemini, near Eta Geminorum	Apparent	Absolute	5000 ly, 1.5 kpc	06h 17m 13s	+22° 31′ 05′′	External Links
IC 443	Image 1	Image 2	IC 443 is a remnant of a supernova that likely occurred 3000-30,000 years ago. It is one of the best-studied cases of a supernova remnant interacting with the surrounding molecular clouds.
M82 X-2	Image 1	Image 2	Ursa Major	Apparent	Absolute	12 million ly, 3.5 million pc	09h 55m 51.0s	69° 40′ 45″	External Links
M82 X-2	Image 1	Image 2	M-82 X-2, an X-ray pulsar in the Messier 82 galaxy, is noted for being an ultra luminous X-ray source (ULX), shining around 100x brighter than predicted. It is part of a binary system, where it revolves around the larger star about once every 2.5 days. It rotates about once every 1.37 seconds. It was uncovered by NuSTAR and verified by the Chandra and Swift spacecraft.
NGC 6357	Image 1	Image 2	Scorpius	Apparent	Absolute	~5500 ly, ~1680 pc	17h 25m 34.2s	−34° 23′ 12"	External Links
NGC 6357	Image 1	Image 2	NGC 6357 is a diffuse nebula. It is also named the War and Peace nebula, because infrared pictures appear to depict a dove and a skull, and the Lobster nebula. It includes the Pismis cluster, containing a number of massive stars, as well as two young stellar clusters, G353.2+0.7 and G353.1+0.6. It is one of the most important sites of massive star formation in the Milky Way.
NGC 7822	Image 1	Image 2	Cepheus	Apparent	Absolute	2900 ly, 900 pc	00h 01m 08.58s	+67° 25′ 17.0″	External Links
NGC 7822	Image 1	Image 2	NGC 7822 is a star forming region that is believed to be relatively young. It contains the star BD+66 1673, one of the hottest stars discovered within 1 kpn of the Sun, and is noted for its elephant trunk-shaped pillars of creation. Description of the DSO, important characteristics, etc.
PSR B0355+54	Image 1	Image 2	Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	[3]
PSR B0355+54	Image 1	Image 2	Description of the DSO, important characteristics, etc.
RCW 103	Image 1	Image 2	Norma	Apparent	Absolute	10110 to 10760 ly, 3100 to 3300 pc	16h 17m 30s	-51° 02′	External Links
RCW 103	Image 1	Image 2	RCW 103 is a supernova remnant containing the neutron star 1E 161348-5055 at its center. This neutron star is notable for having a spin period much longer than other observed pulsars and much longer than what is predicted based on its age.
S Doradus			Dorado	8.6-11.5	-10.0	169000 ly, 51.8 kpc	05h 18m 14.3550s	−69° 15′ 01.151″	External Links
S Doradus			First observed in 1897, S Dor is a Luminous Blue Variable (LBV) located in the Large Magellanic Cloud (LMC). It is also the brightest member of NGC 1910, an open cluster. An entire class of variable stars are named after this DSO, which have the unusual characteristic of short-term microvariations superimposed over long-term macrovariations.
SN 1987A	Image 1	Image 2	Dorado	Peaks around +2.9	Absolute	168,000 ly, 51.4 kpc	05h 35m 28.03s	−69° 16′ 11.79″	External Links
SN 1987A	Image 1	Image 2	The closest observed supernova since SN 1604, its light reached the Earth 23 February 1987. It was the first opportunity for astronomers to study the development of a supernova and learn more about core-collapse supernovae. Additionally, it detected gamma-ray radiation that proved that the post-explosion glow is radioactive. This was also the first supernova where astronomers were able to directly observe emitted neutrinos.
SN W49B	Image 1	Image 2	Aquila	Apparent	Absolute	33,000 ly, 10 kpc	19h 11m 09s	+09° 06′ 24″	Chandra Chandra (picture)
SN W49B	Image 1	Image 2	One of the most luminous SNRs in the galaxy at gamma-ray wavelengths, SN W49B also shows Cr and Mn x-ray emissions and has asymmetrically distributed Fe and Ni. It is thought to have left a black hole at the center - possibly the most recent black hole formed in the Milky Way.

2017 DSOs

2017 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
Henize 2-428			Aquilla				19h 13m 05.239s	+15° 46′ 39.80″	Space.com
Henize 2-428			Heaviest known WD binary system ;Will eventually merge in 700 million years; Originally binary star system of two sun-like stars of equivalent mass; Total mass 1.8 M_sun; Nebula is asymmetric because of binary system at center instead of single star; The planetary nebula came from the outer later of the original star, from contraction/expansion during the Red Giant stages; Period is 4 hours; Emit gravitational waves resulting in loss of energy; Will eventually cause Type 1a supernova when they merge, absolute magnitude =/= -19.3 because of increased mass: will not be useful as standard candle.
Henize 3-1357 (Stingray Nebula)			Ara	10.75	-3.0	18kly	17h 16m 21.071s	−59° 29′ 23.64″	APOD NASA Gallery
Henize 3-1357 (Stingray Nebula)			Youngest known planetary nebula; Radius 0.02 pc (as large as 130 solar systems), separated by 0.3arcsec; Age 2650 yr, gases light up for no more than 40 yr; Core mass 0.59 M_sun; ionized mass (nebula mass) 0.2Msol; Star at the center was originally a asymptotic giant branch B1 supergiant, still evolving to WD; White dwarf has strong hydrogen rich Balmer lines; Luminosity 3000 L_sun.
HM Cancri (RX J0806.3+1527)			Cancer	21.1		~1600 ly	08h 06m 23.20s	+15° 27' 30.20"	Chandra Space.com
HM Cancri (RX J0806.3+1527)			Period 321.5 seconds: shortest period known; proper motion 1.1mas/yr; separation 0.0005 A; 400,000 km/sec, approaching at 2.0ft/day and orbit decaying at 1.2 ms/yr; total mass of 1.18 M_sun assuming separation of 1.02 x 10 -6 arcseconds; Double WD system, releases gravitational wave; X-Ray binary; X-Rays originate from accretion flow crashing into magnetic poles of white dwarf.
J075141/J174140 (two objects)			Monceros/Draco				07h 51m 41.20s/17h 41m 40.50s	-01° 41' 20.90"/+65° 26' 38.70"	Chandra
J075141/J174140 (two objects)			Binary system; white dwarf with a companion star; theoretically give off gravitational waves; Potentially may not create Type 1a Supernova, maybe a Type 1ax or .Ia Supernova, where detonation only on surface of star.
M15	200px	175px	Pegasus	6.2	-9.2	~33,600 ly	21h 29m 58.33s	+12° 10′ 01.2″	Messier Catalogue UAlabama APOD
M15	200px	175px	M15 is one of the oldest known and closest globular clusters to Earth. It is potentially one of the densest clusters known, containing over 100,000 stars with 112 variables, 8 pulsars, and 1 double neutron star system which gives off X-rays. It contains a planetary nebula called Pease 1, which shows that stellar evolution still takes place in globular clusters.
NGC 1846			Dorado			160,000ly	05h 07m 33s	-67° 27' 41"	NASA
NGC 1846			NGC 1846 is a globular cluster with an unusual HR diagram: there are two turn-off points. Stars in a globular clusters form at the same time, meaning that the after the turnoff point there should be few stars. There are two different populations of stars in the clusters, with calculated age difference of around 300 million years, which is suspected to be caused by a merge of 2 globular clusters. Additionally, there is a potential planetary nebula within the cluster.
NGC 2392 (Eskimo Nebula)			Gemini	10.1	0.4	~3000 ly	07h 29m 10.7669s	+20° 54′ 42.488″	APOD
NGC 2392 (Eskimo Nebula)			NGC 2392 is a double shell planetary nebula often called the Eskimo nebula. The rings of the nebula are formed by the collision of fast and slow moving gases. The nebula is about 10,000 years old, and will last about another 50,000 years before it cannot be seen. The high X-ray emission could be potentially due to an unseen companion star. Notable features include strong OIII lines and weak Hα lines.
NGC 2440			Puppis	9.4			07h 41m 54.91s	−18° 12′ 29.7″	NASA APOD Chandra
NGC 2440			NGC 2440 is a planetary nebula containing the hottest known white dwarf, HD62166. The white dwarf itself has a temperature of 200,000K, and is surrounded by cooling gas. Most light is emitted in UV, ionizing the surrounding material. Its multipolar structure could potentially be caused by the shedding of mass in different locations or precession.
Omicron Ceti (Mira)			Cetus	3.04	-5.04 to -5.16	~420 ly	02h 19m 20.79210s	–02° 58′ 39.4956″	Chandra NASA Science News
Omicron Ceti (Mira)			Mira is the prototype for Mira variables, which are red giants that oscillate over long periods. It is a binary star system, with Mira A the red giant on the asymptotic giant branch that is losing mass and Mira B the white dwarf that is accreting mass. Historically, it was the first non-supernova variable star discovered. Mira A(?) is not spherical, rather it is egg shaped due to the non-radial nature of its pulsations. Additionally, it exhibits a bow shock, which was only recently discovered due to the need for high tech observatories in UV. Mira has been observed in almost all frequencies, each having seemingly different shapes and giving specific information about the star.
Sirius A & B			Canis Major	-1.46	1.42	8.6ly	06h 45m 09s	−16° 42′	Chandra APOD
Sirius A & B			Sirius A and B are collectively the brightest star in the sky. Sirius A is a type A1 star, and Sirius B is a white dwarf. Sirius B was originally a bright blue star, which then shed its outer layers and became a white dwarf with broad hydrogen absorption lines. Their separation is 20 AU. Sirius A emits more radiation in the visible spectrum, while Sirius B emits more radiation in the X-ray spectrum.
SN2011fe			Ursa Major	+9.9	-19	21 Mly	14h 03m 05.8s	+54° 16′ 25″	NASA AAVSO
SN2011fe			SN 2011fe is the youngest Type 1a Supernova discovered. Discovered by the Palomar Transient Factory in 2011, it was used to test predictions and models of Type 1a supernovae. The progenitor was a carbon-oxygen white dwarf with a star no larger than the Sun. As with many type 1a supernovae, a large amount of energy was emitted through the decay of Ni-56. The location of the supernova was in the Pinwheel galaxy (M101).
SNR 0509-67.5			Dorado			~52,000 pc/160 kly	05.01h 09.01m 31.01s	−67.01° 31.01′ 18.2″	Chandra APOD
SNR 0509-67.5			SNR 0509-67.5 is a Type 1a supernova remnant found in the Large Magellanic Cloud. It was mostly likely a double degenerate system given the lack of companions in the vicinity. There is little doubt as to where it was a Type 1a supernovae, due to the silicon found after the explosion. It was observed through a light echo where light reflects off interstellar dust, delaying its arrival by 400 years. The outer ring is gas that has been shocked and heated by the supernova., expanding at 11,000 mph.
G1.9+0.3			Sagittarius			~7665 pcs	17h 48m 45.4s	-27° 10' 06"	Chandra
G1.9+0.3			SNR G1.9+0.3 was most likely a double degenerate progenitor supernova. It is only 110 years old, the youngest Type Ia Supernova in the Milky Way. While the light would have reached the Earth in the 19th century, interstellar dust obscured it. However, the X-rays and radio waves were able to penetrate the gas. The remnant has a very asymmetric pattern, and exhibits synchrotron radiation (charged particles traveling in a curved path).
SS Cygni			Cygnus	7.7-12.4	2.42-7.12	114 pcs	21h 42m 42.804s	43° 35' 09.88"	AAVSO Chandra
SS Cygni			A recurrent nova with a very massive white dwarf and a red dwarf-type star cooler than our sun. Often classified as U Geminorum type dwarf nova. SS Cygni is commonly thought of as the prototype dwarf nova. There are three parts to the system, the two stars and the accretion disk. The accretion disk pulsates in brightness, causing its variability. The period of the system is 6.5 hours, with outbursts every 7-8 weeks.
Tycho's SNR			Cassiopeia			~9000 ly	00h 25m 17s	64° 08' 37"	Chandra NASA APOD
Tycho's SNR			A Type 1a supernova remnant that was observed in 1572 and later studied by Tycho Brahe. It remains one of the few supernovae visible to the naked eye. It was detected again using radio waves in 1952, and found that a G0-G2 star was the companion to the white dwarf progenitor. The companion star was most likely around 1.4 solar masses.

2016 DSOs

2016 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
2MASS J22282889-431026		[[]]	Grus			35 ly, 10.6 pc	22h 28m 28.894s	-43° 10′ 26.27″
2MASS J22282889-431026		[[]]	2MASS J22282889-4310262 is a brown dwarf used to study windstorms on brown dwarfs. These investigations were the first to observe the variability in weather on brown dwarfs at different altitudes. It was discovered by the Hubble Space Telescope and the Spitzer Space Telescope in 2013.
51 Pegasi b		[[]]	Pegasus	5.49		50.9 ly, 14.7 pc	22h 57m 28.0s	+20° 46′ 08″
51 Pegasi b		[[]]	51 Pegasi b (also known as Bellerophon and Dimidium) was the first exoplanet found orbiting a main-sequence star.
55 Cancri		[[]]	Cancer			40.3 ly	08h 52m 35.81s	+28° 19′ 51.0″
55 Cancri		[[]]
AB Aurigae	[[]]	[[]]	Auriga			~470 ly	04h 55m 45.8445s	+30° 33′ 04.292″
AB Aurigae	[[]]	[[]]
Barnard 68	[[]]	[[]]	Ophiuchus			500 ly	17h 22m 38.2s	-23° 49′ 34
Barnard 68	[[]]	[[]]
GD 165	[[]]	[[]]	Bootes			~103 ly	14h 24m 39.144s	+09° 17′ 13.98
GD 165	[[]]	[[]]
HAT-P-11b	[[]]	[[]]	Cygnus			122 ly	19h 50m 50.25s	+48° 04′ 51.1″
HAT-P-11b	[[]]	[[]]
HD 95086	[[]]	[[]]	Carina			296 ly	10h 57m 03s	-68° 40′ 02″
HD 95086	[[]]	[[]]
HD 106906b	[[]]	[[]]	Crux			300 ly	12h 17m 53.0s	−54° 01′ 28″
HD 106906b	[[]]	[[]]
HR 8799		[[]]	Pegasus			129 ly	23h 07m 28.7150s	+21° 08′ 03.302"
HR 8799		[[]]
Kepler-186	[[]]	[[]]	Cygnus			492 ly	19h 54m 36.651s	+43° 57′ 18.06″
Kepler-186	[[]]	[[]]
M42	[[]]	[[]]	Orion			1344 ly	05h 35m 17.3s	−05° 23′ 28″
M42	[[]]	[[]]
HR 8799		[[]]	Taurus			~600 ly	04h 21m 59.43445s	+19° 32′ 06.4182″
HR 8799		[[]]
WASP-18b	[[]]	[[]]	Phoenix			325 ly	01h 37m 24.95s	–45° 40′ 40.8″
WASP-18b	[[]]	[[]]
WASP-43b	[[]]	[[]]	Sextans			~80 pc	10h 19m 38s	−09° 48′ 23″
WASP-43b	[[]]	[[]]
WISE 0855-0714	[[]]	[[]]	Hydra			7.53 ly	08h 55m 10.83s	–07° 14′ 42.5″
WISE 0855-0714	[[]]	[[]]

2015 DSOs

2015 DSOs
Name	Images		Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images		Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
FU Orionis		Image 2	Orion			~1300 ly	05h 45m 22.362s	+09° 04′ 12.31″	AAVSO
FU Orionis		Image 2
TW Hydrae		Image 2	Hydra			176 ly	11h 01m 52s	−34° 42′ 17″
TW Hydrae		Image 2
2M1207		Image 2	Centaurus			172 ly	12h 07m 33.47s	−39° 32′ 54.0″
2M1207		Image 2
CoRoT-2		Image 2	Aquila			930 ly	19h 27m 06.496s	+01° 23′ 01.38″
CoRoT-2		Image 2
HD 209458 b		Image 2	Pegasus			154 ly	22h 03m 10.8s	+18° 53′ 04″
HD 209458 b		Image 2
HD 189733 b		Image 2	Vulpecula			63.4 ly	20h 00m 43.71s	+22° 42′ 39.1″
HD 189733 b		Image 2
Kepler-7b		Image 2	Lyra			~3400 ly	19h 14m 19.6s	+41° 5′ 23.3″
Kepler-7b		Image 2
GJ 1214 b		Image 2	Ophiuchus			42 ly	17h 15m 18.942s	+04° 57′ 49.69″
GJ 1214 b		Image 2
Beta Pictoris		Image 2	Pictor			63.4 ly	05h 47m 17.1s	−51° 03′ 59″
Beta Pictoris		Image 2
Fomalhaut		Image 2	Piscis Austrinus			25.13 ly	22h 57m 39.0465s	−29° 37′ 20.050″
Fomalhaut		Image 2
HR 8799		Image 2	Pegasus			129 ly	23h 07m 28.7150s	+21° 08′ 03.302″
HR 8799		Image 2
WISE 1049-5319 (Luhman 16)		Image 2	Vela			6.6 ly	10h 49m 18.723s	−53° 19′ 09.86″
WISE 1049-5319 (Luhman 16)		Image 2
Gliese 229B		Image 2	Lepus			18.8 ly	06h 10m 34.6154s	−21° 51′ 52.715″
Gliese 229B		Image 2
LP 944-20		Image 2	Fornax			20.9 ly	03h 39m 35.220s	–35° 25′ 44.09″
LP 944-20		Image 2
N159		Image 2	Dorado			170000 ly	05h 40m 04.2s	–69° 44′ 43″
N159		Image 2
M20	175px	Image 2	Sagittarius			5200 ly	18h 02m 23s	−23° 01′ 48″
M20	175px	Image 2

2014 DSOs

2014 DSOs
Name	Images	Constellation	Magnitude		Distance	Coordinates		External Links
Name	Images	Constellation	Apparent	Absolute	Distance	Right Ascension	Declination	External Links
Mira (Omicron Ceti)		Cetus	2.0 to 10.1	~-2.5 to 4.7	~420 ly	02h 19m 20.70s	-02° 58' 39.51"	Chandra NASA Science News
Mira (Omicron Ceti)		Mira is the prototype for Mira variables, which are red giants that oscillate over long periods. It is a binary star system, with Mira A the red giant that is losing mass and Mira B the white dwarf that is accreting mass.
W49B		Aquila			~26,000 light years	19h 11m 07s	+09° 06' 00"	Chandra
W49B		W49B is an SNR that is theorized to have a distorted shape and a black hole from the explosion that created the remnant. It may be the most recent black hole formed in the Milky Way.
SN 1572 (Tycho's Supernova)		Cassiopeia	-4		~9000 ly	00h 25m 17s	+64° 08' 37"	Chandra NASA APOD
SN 1572 (Tycho's Supernova)		A Type 1a supernova remnant that burst in early November 1572 and was later studied by Tycho Brahe.
Vela SNR		Vela	12		~800 ly	08h 35m 20.66s	-45° 10' 35.2"	APOD
Vela SNR		The closest known supernova remnant to us with a notable pulsar and neighboring nebulae. Contains NGC 2736 or the Pencil Nebula, which is thought to have formed from part of the shock wave of the Vela SNR
G1.9+0.3		Sagittarius			~28,000 ly	17h 48m 45s	-27° 10' 00"	Chandra NASA
G1.9+0.3		Possibly the most recent supernovae, specifically Type Ia, in the Milky Way. It has an extremely asymmetric pattern. Explosion was likely highly non-uniform and unusually energetic.
Eta Carinae		Carina	-0.8 to 7.9		~7,500 ly	10h 45m 03.591s	-59° 41′ 04.26″	Chandra APOD
Eta Carinae		A hypergiant with a smaller companion. Massive supernova, very bright. It has a chance of exploding at any time, and will be so bright that it rivals the moon.
SS Cygni		Cygnus	7.7-12.4		370 ly	21h 42m 42.804s	43° 35' 09.88"	AAVSO Chandra
SS Cygni		A recurrent nova with a very massive white dwarf and a red dwarf-type star cooler than our sun. Often classified as U Geminorum type dwarf nova.
T Tauri		Taurus	9.3-14		462 ly	04h 21m 59.43s	+19° 32′ 06.42″	NASA APOD Universe Today
T Tauri		T Tauri is the prototype for T Tauri stars, which are the stars in the life stage between protostar and main sequence. there is a nebula located close to the star called Hind's Variable Nebula, which changes in luminosity as T Tauri varies.
GRS 1915+105		Aquila			40,000 ly	19h 15m 11.60s	+10° 56' 44.00	Chandra
GRS 1915+105		GRS 1915+105 is an x-ray binary star system containing a regular star and a black hole. It is one of the heaviest stellar black holes so far known in the Milky Way and has a self-regulating black hole.
47 Tucanae		Tucana	4.91		16,700 ly	00h 24m 05.67s	-72° 04′ 52.6″	Chandra APOD APOD
47 Tucanae		47 Tucanae is the second brightest globular cluster after Omega Centauri and one of the most massive globular clusters in the galaxy.
The Trapezium		Orion	4		1,600 ly	05h 35.4m	-05° 27′	Chandra APOD APOD
The Trapezium		The Trapezium is a relatively young open cluster in the heart of the Orion Nebula.
T Pyxidis		Pyxis	6.4-15.5		15,600 ly	09h 04m 41.50s	-32° 22′ 47.5″	AAVSO NASA APOD
T Pyxidis		T Pyxidis is a recurrent nova and nova remnant containing a sun-like star and a white dwarf. It is now close to the Chandrasekhar limit and might soon explode as a type 1a supernova.
Abell 30		Cancer	15.6		5,500 ly	08h 46m 53.50s	+17° 52' 45.40"	Chandra
Abell 30		Abell 30 is a planetary nebula in a special, rarely-seen phase of evolution. The evolution of A30 stalled and then started up again, so the planetary nebula was reborn.
RX J0806.3+1527 (HM Cnc)		Cancer	21.1		~1600 ly	08h 06m 23.20s	+15° 27' 30.20"	Chandra Space.com
RX J0806.3+1527 (HM Cnc)		An x-ray binary system composed of two white dwarves that are rapidly orbiting each other. Their orbits are slowly getting closer, and the stars will eventually collide. Since they are faint, they are being observed by x-ray emissions.
V1647 Ori		Orion			1,300 ly	05h 46m 13.10s	-00° 06' 05.00"	Chandra NASA
V1647 Ori		V1647 Ori is a FU Orionis variable star, a low-mass protostar still partly surrounded by its birth cloud. It is spinning as fast as it can without ripping itself to pieces.
V1		Andromeda			2.5 million ly	00h 41m 27s		Hubblesite NASA
V1		A Cepheid variable star in the Andromeda galaxy that began Hubble's discovery of the expansion of the universe by showing that the Andromeda galaxy was not part of our galaxy.
NGC 1846	175px	Doradus	11.3		~160,000 ly	05h 07m 35.25s	-67° 27' 38.9"	Hubblesite NASA
NGC 1846	175px	NGC 1846 is a globular cluster located in the outer halo of the LMC. The most intriguing object is a faint green planetary nebula, and it doesn't seem to belong in the cluster.
NGC 3132		Vela	9.87		~2,000 ly	10h 07m 01.7640s	-40° 26′ 11.060″	APOD APOD
NGC 3132		NGC 3132 is a planetary nebula. There are two stars in the nebula, one of which is a white dwarf.

2013 DSOs

2013 DSOs
Name	Constellation	Magnitude	Distance	Coordinates	External Links
Cassiopeia A	Cassiopeia	Apparent: Peak=~6	~11,000 ly	Right Ascension: 23h 23m 26.7s ; Declination: +58° 49' 3.00"	Chandra
Cassiopeia A	Cassiopeia A is the youngest supernova remnant in the Milky Way Galaxy.
IGR J17091	Scorpius	Apparent:	~28,000 ly	Right Ascension: 17h 09m 7.92s; Declination: -36° 24' 25.20"	Chandra
IGR J17091	IGR J17091 has the highest ever known wind speed at 20 million miles per hour, which is only 3% of the speed of light.
NGC 6888/ WR 136	Cygnus	Apparent: +7.4	~5,000 ly	Right Ascension: 20h 12m 35.00s; Declination: +38° 26' 30.00"	Chandra
NGC 6888/ WR 136	NGC 6888, also known as the Crescent Nebula, was created the powerful winds coming off of the Star WR 136, or HD 192163.
PSR J0108-1431	Cetus	Apparent: peak: 27.8	~770 ly	Right Ascension: 01h 08m 08.30s; Declination: -14° 31' 48.50"	Chandra, Neutron Star Physics Blog
PSR J0108-1431	PSR J0108-1431 is, by far, the nearest pulsar, or neutron star, to Earth.
Cygnus X-1	Cygnus	Apparent: 8.95 Absolute: 6.5	~6070 ly	Right Ascension: 19h 58m 21.70s; Declination: +35° 12' 05.80"	Chandra, NASA
Cygnus X-1	Stephen Hawking lost a bet that Cynus X-1 did not contain a black hole; This black hole is 15 times the mass of the sun.
SXP 1062	Tucana	Apparent:	~180,000 ly	Right Ascension: 01h 29m 12.40s; Declination: -73° 32' 01.70"	Chandra
SXP 1062	There is evidence that there is a pulsar within this supernova remnant.
Messier Object M1 (Crab Nebula)	Taurus	Apparent: 8.4	~6,500 ly	Right Ascension: 05h 34m 32s; Declination: +22° 0.0' 52.00"	Chandra, NASA
Messier Object M1 (Crab Nebula)	First observed in A.D. 1054, the Crab Nebula produces the equivalent of 100,000 suns in Energy and has a pulsar located in its center as well.
V838 Monocerotis	Monoceros	Apparent: 15.74	~20,000 ly	Right Ascension: 07h 04m 04.85s ; Declination: -03° 50' 50.1"	NASA, NASA, Wikipedia
V838 Monocerotis	This object became 600,000 times more luminous than our Sun, for an instant, the brightest star in this galaxy, in January of 2002.
Delta Cep (Cephei)	Cepheus	Apparent: 3.5-4.4	887 ly	Right Ascension: 22h 29m 10.26502s; Declination: +58° 24' 54.7139"	AAVSO, Wikipedia
Delta Cep (Cephei)	Delta Cep is located in a binary system, and is one of the closest Cepheid variable stars, with only Polaris being closer.
Alpha Orionis (Betelgeuse)	Orion	Apparent: 0.2-1.2	~643 ly	Right Ascension: 05h 55m 10.3053s; Declination: +07° 24' 25.426"	AAVSO, Wikipedia
Alpha Orionis (Betelgeuse)	It will explode as a type II supernova within the next million years.
SN 2010JL	Leo	Apparent:	~160 million ly	Right Ascension: 09h 42m 53.33s; Declination: +09° 29' 41.80"	Chandra
SN 2010JL	It is the first evidence in X-rays of a supernova shock wave breaking through a cocoon of gas around the star. This discovery may help explain why some supernova explosions are more powerful than others.
NGC 3582	Carina	Apparent:	~6000 ly	Right Ascension: 11h 12m 12s; Declination: -61° 16′ 25"	NASA APOD
NGC 3582	A complex nebula where bright stars and interesting molecules are forming.
LHa115-N19	Tucana	Apparent:	~196,000 ly	Right Ascension: 0h 47m 31s; Declination: -73° 8.3'	Chandra
LHa115-N19	This area is filled with ionized hydrogen gas and it is where many massive stars are expelling dust and gas through stellar winds.
Antares	Scorpius	Apparent: 0.96	~550 ly	Right Ascension: 16h 29m 24.45970s; Declination: -26° 25' 55.2094	Wikipedia
Antares	A red supergiant star in the Milky Way galaxy and the sixteenth brightest star in the nighttime sky.
Rho Ophiuchi Cloud complex	Ophiuchus	Apparent:	~460 ly	Right Ascension: 16h 28m 06s; Declination: -24° 32.5′	Wikipedia, NASA APOD
Rho Ophiuchi Cloud complex	One of the closest star-forming regions.
IC 1396	Cepheus	Apparent:	~2,400 ly	Right Ascension: 21h 38m 8.7s; Declination: +57° 26' 48"	Wikipedia
IC 1396	One of the largest emission nebulae in the night sky. It contains "the Elephant's Trunk", a dark, dense globule in the nebula.

2012 DSOs

2012 DSO's
Name	Images		Constellation	Magnitude	Distance	Coordinates	External Links
Mira (Omicron Ceti)			Cetus	Apparent: 2.0 to 10.1	~420 ly	Right Ascension: 02h 19m 20.70s; Declination: -02° 58' 39.51"	Chandra NASA Science News
Mira (Omicron Ceti)			Mira is the prototype for Mira variables, which are red giants that oscillate over long periods.
SNR 0509-67.5			Dorado		~160,000 ly	Right Ascension: 05h 09m 31.7s; Declination: -67° 31' 18.01”	NASA APOD Chandra
SNR 0509-67.5			A supernova remnant in the LMC (Large Magellanic Cloud). The explosion occurred 400 years ago for Earth observers.
CH Cyg			Cygnus	Apparent: 5.6 to 10.5	~815 ly	Right Ascension: 19h 24m 33.07s; Declination: +50° 14' 29.13"	Chandra AAVSO
CH Cyg			CH Cyg is a symbiotic star system between a red giant and a white dwarf.
Kepler's SNR (SN 1604)			Ophiuchus		~13,000 ly	Right Ascension: 17h 30m 40.80s; Declination: -21° 29' 11.00"	Chandra NASA APOD
Kepler's SNR (SN 1604)			A Type 1a supernova remnant that was observed by Johannes Kepler in 1604.
Tycho's SNR (SN 1572)			Cassiopeia		~9000 ly	Right Ascension: 00h 25m 17s; Declination: +64° 08' 37"	Chandra NASA APOD
Tycho's SNR (SN 1572)			A Type 1a supernova remnant that was observed in 1572 and later studied by Tycho Brahe.
Messier 15 (NGC 7078)	File:M15 2.jpg	175px	Pegasus	Apparent: 6.2	~33,600 ly	Right Ascension: 21h 29m 58.38s; Declination: +12° 10′ 00.6″	Messier Catalogue U of Alabama
Messier 15 (NGC 7078)	File:M15 2.jpg	175px	M15 is one of the oldest known and closest globular clusters to Earth.
Carina Nebula			Carina	Apparent: 1.0	~7500 ly	Right Ascension: 10h 45m 04s; Declination: -59° 41' 03"	Chandra Universe Today
Carina Nebula			The Carina Nebula is a very bright and large nebula. It contains Eta Carinae, which is one of the largest known stars and a prime candidate for a hypernova.
T Tauri			Taurus	Apparent: 9.3-14	462 ly	Right Ascension: 04h 21m 59.43s; Declination: +19° 32′ 06.42″	NASA APOD Universe Today
T Tauri			T Tauri is the prototype for T Tauri stars, which are the stars in the life stage between protostar and main sequence. there is a nebula located close to the star called Hind's Variable Nebula, which changes in luminosity as T Tauri varies.
Sirius B			Canis Major	Apparent: 8.30; Absolute: 11.18	8.6 ly	Right Ascension: 06h 45m 11s; Declination: -16° 42' 05.00"	Chandra NASA APOD
Sirius B			Sirius B is the smaller, white dwarf component to the Sirius star system.
RR Lyrae			Lyra	Apparent: 7.1 to 8.2	~850 ly	Right Ascension: 19h 25m 27.91s; Declination: +42° 47′ 03.69″	AAVSO Encyclopedia of Science
RR Lyrae			RR Lyrae is the prototype for RR Lyrae variables, which are low-mass stars that pulsate regularly.
U Scorpii			Scorpius	Apparent: 8.7 to 19.3	>15000 ly	Right Ascension: 16h 22m 30.78s; Declination: -17° 52′ 42.8″	Universe Today Sky and Telescope
U Scorpii			U Scorpii is a recurrent nova, and one of ten known recurrent novae in the Milky Way. Its most recent outburst was in January 2010, and it was the best-observed outburst in history.
Rosette Nebula (Caldwell 49, 3C 163)			Monoceros	Apparent: 9.0	4700 ly	Right Ascension: 06h 31m 52.00s; Declination: +04° 55' 57.00"	Atlas of the Universe Chandra
Rosette Nebula (Caldwell 49, 3C 163)			A large stellar nursery that produces several O and B type stars. It has an appearance similar to a rose, hence its name.
BP Psc			Pisces	Apparent: 11.9	~1000 ly	Right Ascension: 22h 22m 24.70s; Declination: -02° 13' 41.40"	Chandra NASA NGC 2440 PDF
BP Psc			BP Psc appears to be a red giant, but it has an accretion disc similar to that of a protostar. This has led to hypotheses that BP Psc has recently consumed a companion star or a large, gaseous planet.
NGC 2440 (VV 45)			Puppis	Apparent: 11.5	~4000 ly	Right Ascension: 07h 41m 54.91s; Declination: -18° 12′ 29.7″	NASA APOD Hubble
NGC 2440 (VV 45)			NGC 2440 is a planetary nebula whose star of origin is now an extremely hot white dwarf.
RX J0806.3+1527 (HM Cnc)			Cancer	Apparent: 21.1	~1600 ly	Right Ascension: 08h 06m 23.20s; Declination: +15° 27' 30.20"	Chandra Space.com
RX J0806.3+1527 (HM Cnc)			An x-ray binary system composed of two white dwarves that are rapidly orbiting each other. Their orbits are slowly getting closer, and the stars will eventually collide. Since they are faint, they are being observed by x-ray emissions.
DEM L238 & L249			Dorado		~160,000 ly	Right Ascension: 05h 34m 08.80s; Declination: -70º 34' 28.00"	Chandra Space Daily
DEM L238 & L249			Two remnants from neighboring stars that exploded as white dwarves in the LMC.

2011 DSOs

2011 DSO's
Name	Constellation	Magnitude	Distance	Coordinates	External Links
Epsilon Aurigae	Auriga	Apparent: 2.9 normally, 3.8 during eclipse; Absolute: -6.0	~2000 light years (ly)	Right Ascension: 05h 01m 58.1s; Declination: +43° 49’ 24”	AAVSO: Epsilon Aurigae Citizen Sky: Epsilon Aurigae
Epsilon Aurigae	Epsilon Aurigae is an eclipsing binary. One part is a white giant, and the other appears to be a star shrouded by a dark cloud of dust. In the middle of this cloud, there is a clearing where the star probably is, so during an eclipse, the system appears momentarily brighter as this clearing passes over the giant. An observation project of Epsilon Aurigae took place from 2009-2011.
NGC 6240 (IC 4625, UGC 10592, PGC 59186, VV 617)	Ophiuchus	Apparent: 12.8	~330 million ly	Right Ascension: 16h 52m 58.9s; Declination: +02° 24' 03"	Chandra: NGC 6240 NASA APOD: NGC 6240
NGC 6240 (IC 4625, UGC 10592, PGC 59186, VV 617)	NGC 6240 is an extremely luminous infrared galaxy (ULIRG). It is the result of two smaller galaxies colliding to form one large galaxy with two nuclei and an irregular shape. Possible hypotheses for the high infrared emission are intense star formation or the presence of one or two AGNs.
3C 321	Serpens		~1.4 billion ly	Right Ascension: 15h 31m 42.7s; Declination:: +24° 04’ 25.00"	Chandra: 3C 321 Space.com: 3C 321
3C 321	3C 321 is a binary system of galaxies. One of the galaxies is directing a large jet of energy at its companion. It is nicknamed the “Death Star Galaxy” and it is theorized that the galaxy with the jet contains a supermassive black hole. It was discovered in 2007.
Centaurus A (NGC 5128, Arp 153, PGC 46957, Caldwell 77, 4U 1322-42)	Centaurus	Apparent: 6.84	~15 million ly	Right Ascension: 13h 25m 27.6s; Declination: -43° 01’ 09”	SEDS: Centaurus A Solstation.com: Centaurus A
	Cen A is one of the closest radio galaxies containing an AGN to Earth. It is the fifth brightest galaxy in the sky, although it is mostly only observable from the Southern Hemisphere. It is slowly consuming another spiral galaxy, causing rapid star formation, helping the radiation coming from the nucleus. The supermassive black hole at the center sends out jets of X-rays and radio waves in which the inner parts are moving at one half of the speed of light.
Stephan's Quintet (HGC 92, Arp 319, VV 288)	Pegasus	Apparent: 13.9	300-370 million ly	Right Ascension: 22h 35m 57.5s; Declination: +33° 57’ 36”	Chandra: Stephan's Quintet NASA APOD: Stephen's Quintet
Stephan's Quintet (HGC 92, Arp 319, VV 288)	Stephan's Quintet is a visual grouping of five galaxies. Four of the galaxies are in a compact group, and collisions have altered the form of the galaxies. Eventually, the four will likely merge into one large galaxy. The collisions have caused emissions of both x-rays and molecular hydrogen. The four than are physically interlocked are NGC 7317, NGC 7318a, NGC 7318b, and NGC 7319. NGC 7320 is not actually part of the interacting cluster but is a foreground object in the same area as the other galaxies. The galaxies NGC 7335, NGC 7336, and NGC 7337 in the NGC 7331 group, or Deer Lick Group, was used to determine this. Occasionally, the tidal forces cause NGC 7318b to emit huge shock waves of X-rays. It is also the brightest member of the group with an apparent magnitude of 13.9. NGC 7319 is classified as a Type 2 Seyfert galaxy.
MACSJ0717.5+3745	Auriga			Right Ascension: 07h 17m 31.00s; Declination: +37° 45’ 39.60”	Chandra: MACSJ0717.5+3745
MACSJ0717.5+3745	MACSJ0717.5+3745 (MACSJ0717 for short) a galaxy cluster where four separate galaxies have been involved in a collision. The collisions are caused by a stream of hot gas known as a filament that pours into the cluster. It is one of the most complex clusters ever studied and was discovered in 2003.
Bullet Cluster (1E 0657-56)	Carina			Right Ascension: 06h 58m 37.9s; Declination: - 55° 57’ 0”	Chandra: Bullet Cluster NASA APOD: Bullet Cluster
Bullet Cluster (1E 0657-56)	The Bullet Cluster is a system of two colliding clusters of galaxies. It is one of the best examples of evidence for the existence of dark matter. In the collision, the stars mostly did not interact, but the gases and other matter were significantly altered. This other matter is hypothesized to be dark matter, and is supported by the supposed Modified Newtonian Dynamics that explains the lensing phenomenon in the cluster. It is one of the hottest known clusters of galaxies.
Perseus A (NGC 1275, PGC 12429, UGC 2669, Caldwell 24, 3C 84, QSO B0316+413)	Perseus	Apparent: 12.6.		Right Ascension: 03h 19m 48.1s; Declination: +41° 30’ 42”	NASA APOD: Perseus A Hubble Heritage: Perseus A
	Perseus A is a Type 1.5 Seyfert galaxy, which signifies that both broad and narrow lines on the emission spectrum are present, but there are less pronounced broad lines than a Type 1 Seyfert galaxy. It consists of two galaxies, one in the center and another that lies in front of it. Long filaments of gas stretch out from the system.
SN 2006gy	Perseus	Peak Apparent: 14.2		Right Ascension: 03h 17m 27.10s; Declination: +41° 24’ 19.50”	Chandra: SN 2006gy NASA APOD: SN 2006gy
SN 2006gy	SN 2006gy was an extremely energetic supernova that reached an extremely high luminosity level. The large size of the star caused it to gain energy in its core, eventually causing it to be blown apart violently. This type of supernova is sometimes referred to a hypernova, and it compared to the star Eta Carinae in the Milky Way.
SN 1996cr	Circinus			Right Ascension: 14h 13m 10.05 s; Declination: -65° 20’ 44.8”	Chandra: SN 1996cr
SN 1996cr	SN 1996cr is a powerful supernova that was noticed in a Chandra image after it was taken, and was widely studied afterward. The star exploded between 1995 and 1996, but was not discovered until 2001. It is of interest because it is located in an active galaxy with a growing supermassive black hole and rapid star formation.
NGC 4603 (PGC 42510)	Centaurus	Apparent: 12.3		Right Ascension: 12h 40m 55.2s; Declination: -40° 58’ 35”	NASA APOD: NGC 4603 HyperPhysics: NGC 4603
NGC 4603 (PGC 42510)	NGC 4603 is a large spiral galaxy. It is the most distant galaxy in which Cepheids have been used to determine the distance to the galaxy. Using this distance and determining recession velocity, it has served as a benchmark for determining the Hubble constant (70 km/sec/Mpc ±10%).
NGC 7771 (VV 2002)	Pegasus	Apparent: 12.9		Right Ascension: 23h 51m 25.0s; Declination: +20° 06’ 49”	NASA APOD: NGC 7771
NGC 7771 (VV 2002)	a large spiral galaxy in close proximity to two other galaxies. This trio of galaxies is named the NGC 7771 group after its largest member, a spiral, the three galaxies, NGC 7769-7771, have passed by each other closely and will eventually form one huge galaxy. It is considered an accurate representation of the formation of the Milky Way. Dusty nebulae in front of the group obstruct clear viewing.
NGC 2623 (Arp 243)	Cancer	Apparent: 13.9		Right Ascension: 08h 38m 24.1s; Declination: +25° 45’ 01”	NASA APOD: NGC 2623 Hubble: NGC 2623
NGC 2623 (Arp 243)	a system of two or more interacting galaxies. The galaxies have formed one common nucleus, but there are two strands of stars branching out from the galaxy, indicating a merger has taken place.
JKCS041					Chandra: JKCS041
JKCS041	An extremely distant galaxy cluster, about 10.2 billion years away. This object may help scientists better understand how the universe developed at an early age.
Messier 77 (NGC 1068, UGC 2188, PGC 10266, Arp 37, 3C 71)					Chandra: Messier 77 Universe Today: Messier 77
Messier 77 (NGC 1068, UGC 2188, PGC 10266, Arp 37, 3C 71)	One of the nearest and brightest galaxies containing a supermassive black hole. Million-mile per hour wind from the black hole shapes the galaxy.
H2356-309					Chandra: H2356-309
H2356-309	A collection of extremely distant warm hot intergalactic medium, some of the “missing matter” in the nearby universe.

Basic note sheet for the 2011 DSOs, intended for use when asked to quickly identify things, or for those new to the event.

2010 DSOs

Epsilon Aurigae**
- AAVSO: Epsilon Aurigae
Milky Way Galaxy
- NASA: Our Milky Way Gets a Makeover
Sagittarius A*
- Chandra Photo Album: Sagittarius A*: 06 Jan 03
Andromeda Galaxy (M31)
- NASA APOD: November 14, 1999 - M31: the Andromeda Galaxy
Cartwheel Galaxy
- Chandra Photo Album: Cartwheel Galaxy: 11 Jan 06

-**is part of a special viewing campaign this year and will be included up to at least 2011.

2009 DSOs

Circinus X-1
- http://www.daviddarling.info/encyclopedia/C/Circinus_X-1.html
- Chandra Photo Album: Circinus X-1
RU Virginis
- AAVSO: RU Vir
Epsilon Aurigae*
- AAVSO: Epsilon Aurigae
RX Andromedae
- AAVSO: RX And — a CV in transition?
Z Andromedae
- AAVSO: Z And, October 2000 Variable Star Of The Month
SN 1006
- Chandra :: Photo Album:SN 1006, 15 Dec 05
- Chandra :: Photo Album:SN 1006, 1 July O8
RX J0822-4300
- Chandra :: Photo Album :: RX J0822-4300 in Puppis A: Chandra Discovers Cosmic Cannonball :: November 28, 2007
- Chandra Press Room :: Chandra Discovers Cosmic Cannonball :: November 28, 2007
G292.0+1.8
NGC 2440
- The colourful demise of a Sun-like star
Betelgeuse
- AAVSO: Alpha Orionis
RS Ophiuchi
- AAVSO: RS Ophiuchi
Mira
- AAVSO: Mira Revisited
T Tauri
- AAVSO: T Tauri
Hind's Variable Nebula
- Hinds Variable Nebula
- APOD: 2007 December 13 - T Tauri and Hind's Variable Nebula
M13
- M13.
RS Puppis

-*is part of a special viewing campaign this year and will be included up to at least 2011.

Links

Basic note sheet for the 2011 DSOs

SIMBAD Astronomy Database for DSOs

Difference between revisions of "Astronomy/DSOs"

Revision as of 04:36, 12 August 2020

Contents

General Tips

2020 DSOs

Previous DSO Lists

See Also

Links

Navigation menu

Search

@@ Line 1: / Line 1: @@
-{{Incomplete}}
+The '''[[Astronomy]] DSO list''' specifies which Deep Space Objects may be covered in the Astronomy event that year, and is roughly analogous to the [[Reach_for_the_Stars/Stars_and_DSOs|Deep Sky Objects]] typically found in the rules for the [[Division B]] event [[Reach for the Stars]]. It is typically listed in section 3.c of the [[Rules Manual|rules]].
-The [[Astronomy]] DSO list specifies which Deep Sky Objects may be covered in the Astronomy event that year.
+==General Tips==
-===2015 DSOs===
+The DSO list can seem daunting at first. A good strategy for learning them is to take personalized notes from various sources while including images for identification.
+*Categorize the DSOs by their types or stages in stellar evolution (e.g. Brown Dwarfs, Red Giants, White Dwarfs, Cepheid Variables, Supernova remnants, Globular Clusters). Take notes on each of these stages, as well as what makes them significant in the study of astronomy.
+**For example - a Type Ia Supernova can either be the result of collision of two white dwarfs or accretion of matter from a stellar companion (often reaching the Red Giant stage), and its mostly uniform brightness can help astronomers determine distance to distant galaxies using the distance modulus.
+*For each DSO, take notes on what makes it unique and significant. The [https://www.youtube.com/user/cxcpub/videos Chandra X-ray Observatory] posts videos at the start of the competition season that briefly explain each object's significance.  The [http://chandra.harvard.edu/photo/ Chandra photo album] and [https://apod.nasa.gov/apod/astropix.html NASA's APOD] are also good resources for images and information on DSOs. For Variable stars, [https://www.aavso.org/ AAVSO] is a helpful resource.
+*Find photos (and light curves for variable stars) of the Deep Space Objects, as many as possible and across all wavelengths. Almost all tests include tasks to identify DSOs based on images or find all images of a certain DSO/category, and more difficult tests sometimes include more obscure images of the DSOs. Include the wavelength of light a certain image was taken in.
+*Take notes on miscellaneous information about each DSO, including, but not limited to: constellation, alternate names, magnitude, stellar classification, right ascension/declination, and color index.
+*Take practice tests. They can help reveal weaknesses in any notes on Deep Space Objects.
+*If certain information about a DSO is given (such as the the masses and the separation of the binary system), calculate the period. Use information in any pre-existing notes to calculate other values before the test, saving valuable time.
+==2020 DSOs==
 {|class="wikitable"
-|+2015 DSOs
+|+2020 DSOs
-!Name
+! rowspan="2" | Name
-! colspan="2" | Images
+! colspan="2" rowspan="2" | Images
-!Constellation
+! rowspan="2" | Constellation
-!Magnitude
+! colspan="2" | Magnitude
-!Distance
+! rowspan="2" | Distance
-!Coordinates
+! colspan="2" | Coordinates
-!External Links
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/SN_UDS10Wil SN UDS10Wil]
+|rowspan="2" | [[File: UDS10Wil.jpg|175px]]
+|rowspan="2" | [[File: UDS10Wil-1.png|175px]]
+| Cetus
+|
+|
+| 10.5 Gly, 3.2 Gpc
+| 02h 17m 46.3s
+| -05° 15′ 24.00″
+|
+|-
+| colspan="7" | SN UDS10Wil is the furthest supernova so far of the type used to measure cosmic distances. It was discovered by the Hubble Space Telescope and was discovered as part of a three-year Hubble program that started in 2010 to survey faraway Type 1a supernovae known as the [https://en.wikipedia.org/wiki/Cosmic_Assembly_Near-infrared_Deep_Extragalactic_Legacy_Survey CANDELS] survey.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_2623 NGC 2623]
+|rowspan="2" | [[File: NGC 2623.jpg|175px]]
+|rowspan="2" | [[]]
+| Cancer
+| 13.36
+|
+| 250 Mly, 76.7 Mpc
+| 08h 38m 24.1s
+| +25° 45′ 16.70″
+|-
+| colspan="7" | NGC 2623 is the result of a major collision and subsequent merger between two galaxies. The merger is going through late stages and is thought to eventually resemble what the Milky Way will look like when it collides with our neighboring galaxy, Andromeda in 4 billion years.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/GRB_150101B GRB 150101B]
+|rowspan="2" | [[File: GRB 150101B.jpg|175px]]
+|rowspan="2" | [[]]
+| Virgo
+|
+|
+| 1.7 Gly, 0.52 Gpc
+| 12h 32m 04.96s
+| −10° 56′ 00.7″
+| [http://simbad.u-strasbg.fr/simbad/sim-basic?Ident=GRB+150101B Chandra]
+[http://simbad.u-strasbg.fr/simbad/sim-basic?Ident=GRB+150101B SIMBAD]
+|-
+| colspan="7" | GRB 150101B is a likely merger of 2 neutron stars 1.7 billion light years from Earth. It is fairly similar to GW170817, the first source shown to emit gravitational waves and light.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/JKCS_041 JKCS 041]
+|rowspan="2" | [[File: JKCS 041.jpg|175px]]
+|rowspan="2" | [[]]
+| Cetus
+|
+|
+| ~9.9 Gly, ~ 3.04 Gpc
+| 02h 26m 44s
+| −04° 41′ 37″
+| [https://chandra.harvard.edu/photo/2009/jkcs041/ Chandra]
+|-
+| colspan="7" | JKCS 041 is a group of galaxies about 9.9 billion light years. it is the farthest galaxy group from Earth discovered. It has a redshift of 1.9.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/MACS_J0717.5%2B3745 MACS J0717.5+3745]
+|rowspan="2" | [[File: Macsj0717.jpg|175px]]
+|rowspan="2" | [[File: MACS J0717-dark.jpg|175px]]
+| Auriga
+|
+|
+| 5.4 Gly, 1.7 Gpc
+| 07h 17m 36.50s
+| +37° 45′ 23″
+| [https://chandra.harvard.edu/photo/2016/frontier/ Chandra]
+|-
+| colspan="7" | MACS J0717.5+3745 is a massive galaxy cluster where 4 galaxy subclusters are colliding.
+|-
+!rowspan="2" | MACS J1149.5+2223
+|rowspan="2" | [[File: Macsj1149-comp.jpg|175px]]
+|rowspan="2" | [[]]
+| Leo
+|
+|
+| Approximately 5 billion light-years
+| 11h 49m 36.3s
+| +22° 23′ 58.1″
+| [https://chandra.harvard.edu/photo/2017/macsj1149/ Chandra]
+[https://frontierfields.org/2014/02/25/meet-the-frontier-fields-macs-j1149-52223/ Frontier Fields]
+|-
+| colspan="7" | MACS J1149.5+2223 is a galaxy cluster which bends light from more distant objects due to its huge mass through gravitational lensing.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Bullet_Cluster Bullet Cluster (1E 0657-56)]
+|rowspan="2" | [[File: Bullet-cluster.jpg|175px]]
+|rowspan="2" | [[File: Bullet cluster.jpg|175px]]
+| Carina
+|
+|
+| 3.7 billions light-years, 1.141 Gpc
+| 06h 58m 37.9s
+| −55° 57′ 0″
+|-
+| colspan="7" | The Bullet Cluster is a system of two colliding galaxy clusters. Most of its mass is concentrated around galaxies instead of gas, which could be evidence for the existence of dark matter.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/H1821%2B643 H1821+643]
+|rowspan="2" | [[File: H1821.png|175px]]
+|rowspan="2" | [[]]
+| Draco
+| 14.24
+|
+| 3.4 Gly, 1.0 Gpc
+| 18h 21m 57.24s
+| +64° 20′ 36.23″
+| [https://chandra.harvard.edu/photo/2019/whim/ Chandra]
+[http://simbad.u-strasbg.fr/simbad/sim-id?Ident=H1821%2B643 SIMBAD]
+|-
+| colspan="7" | H1821+643 is a luminous quasar which has been used to search for the WHIM. At its core is one of the most massive black holes known.
+|-
+!rowspan="2" | GOODS-S 29323
+|rowspan="2" | [[File: Bhseeds 29323.jpg|175px]]
+|rowspan="2" | [[File: Bhseeds.jpg|175px]]
+| Fornax
+|
+|
+| 13.2 Gly, 4.05 Gpc
+| 03h 32m 28s
+| –27° 48′ 30″
+| [https://chandra.harvard.edu/photo/2016/bhseeds/ Chandra]
+|-
+| colspan="7" | GOODS-S 29323 is a direct collapse black hole seed candidate. It could support a model of SMBH formation which would allow them to form quickly in the early universe.
+|-
+!rowspan="2" | H2356-309
+|rowspan="2" | [[File: H2356_illustration.jpg|175px]]
+|rowspan="2" | [[File: H2356_spec.jpg|175px]]
+| Sculptor
+|
+|
+| Approximately 2 billion light-years
+| 23h 59m 07.9s
+| -30° 37′ 41.00″
+| [https://chandra.harvard.edu/photo/2010/h2356/ Chandra]
+[https://simbad.u-strasbg.fr/simbad/sim-basic?Ident=H2356-309 SIMBAD]
+|-
+| colspan="7" | H2356-309 is a blazar which was used to detect WHIM (in the form of an oxygen absorption line) in the Sculptor Wall.
+|-
+!rowspan="2" | 152156.48+520238.5
+|rowspan="2" | [[File: 152156.jpg|175px]]
+|rowspan="2" | [[]]
+| Boötes
+|
+|
+| Approximately 10.75 billion light-years
+| 15h 21m 56.5s
+| +52° 02′ 38.50″
+| [https://chandra.harvard.edu/photo/2015/3quasars/ Chandra]
+|-
+| colspan="7" | 152156.48+520238.5 is a quasar which has similar properties to the quasar PHL 1811. The disk around it may be puffed up (from high accretion rates), causing it to be fainter in X-rays and have weak emission lines.
+|-
+!rowspan="2" | 153714.26+271611.6
+|rowspan="2" | [[File: 153714.jpg|175px]]
+|rowspan="2" | [[]]
+| Corona Borealis
+|
+|
+| Approximately 11.03 billion light-years
+| 15h 37m 14.3s
+| +27° 16′ 11.6″
+| [https://chandra.harvard.edu/photo/2015/3quasars/ Chandra]
+|-
+| colspan="7" | 153714.26+271611.6 is a quasar similar to PHL 1811. Like 152156.48+520238.5, it has weak emission lines probably caused by a puffed-up accretion disk.
+|-
+!rowspan="2" | 222256.11-094636.2
+|rowspan="2" | [[File: 222256.jpg|175px]]
+|rowspan="2" | [[]]
+| Aquarius
+|
+|
+| Approximately 11.48 billion light-years
+| 22h 22m 56.10s
+| -09° 46′ 36.20″
+| [https://chandra.harvard.edu/photo/2015/3quasars/ Chandra]
+|-
+| colspan="7" | 222256.11-094636.2 is a quasar similar to PHL 1811. Like 152156.48+520238.5, it has weak emission lines and weak X-ray emission, likely caused by a puffed-up disk.
+|-
+!rowspan="2" | PSS 0133+0400
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Pisces
+|
+|
+| Approximately 10.1 billion light-years
+| 01h 31m 04.8s
+| +03° 45′ 37.8″
+| [https://chandra.harvard.edu/photo/2019/dark/ Chandra]
+|-
+| colspan="7" | PSS 0133+0400 is a quasar which was used in a study to find out that the strength or amount of dark energy may be increasing.
+|-
+!rowspan="2" | PSS 0955+5940
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Ursa Major
+|
+|
+| Approximately 10.2 billion light-years
+| 09h 51m 37.4s
+| +59° 54′ 43.6″
+| [https://chandra.harvard.edu/photo/2019/dark/ Chandra]
+|-
+| colspan="7" | PSS 0955+5940 is a quasar which was used in the same study as PSS 0133+0400.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/GW151226 GW151226]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+|
+|
+|
+| Approximately 1.4 billion light-years
+| n/a
+| n/a
+| [https://www.ligo.org/science/Publication-GW151226/index.php LIGO]
+|-
+| colspan="7" | GW151226 was a Gravitational-Wave signal observed by the twin detectors of the Laser Interferometer Gravitational-Wave Observatory (LIGO) on December 26, 2015 at 03:38:53 UTC making it the second definitive observation of a merging binary black hole system detected by the LIGO Scientific Collaboration and Virgo Collaboration.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Messier_87 M87]
+|rowspan="2" | [[File: Hubble_M87.jpg|175px]]
+|rowspan="2" | [[File: Chandra_M87.jpg|175px]]
+| Virgo
+| 7.19
+|
+| 53.5 ± 1.6 Mly, 16.4 ± 0.5 Mpc
+| 12h 30m 49.42338s
+| +12° 23′ 28.0439″
+| [https://chandra.si.edu/photo/2019/black_hole/ Chandra]
+|-
+| colspan="7" | M87 is a nearby elliptical galaxy with an active galactic nucleus. The central SMBH of M87 was imaged by the Event Horizon Telescope as the first black hole to be imaged.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/3C_273 3C 273]
+|rowspan="2" | [[File: 3c273-optical.jpg|175px]]
+|rowspan="2" | [[File: 3c273-multi.jpg|175px]]
+| Virgo
+| 12.9
+|
+| 2.443 Gly, 749 Mpc
+| 12h 29m 06.7s
+| +02° 03′ 09″
+| [https://www.aavso.org/vsots_3c273 AAVSO]
+[https://chandra.harvard.edu/photo/2000/0131/ Chandra]
+|-
+| colspan="7" | 3C 273 is the most optically bright quasar, and also one of the closest, in our night sky. Along with 3C 48, it was the first object to be identified as what we now know to be quasars.
+|-
+|}
+==Previous DSO Lists==
+{{SpoilerBoxBegin}}'''2019 DSOs'''
+{{SpoilerBoxContent}}
+{|class="wikitable"
+|+2019 DSOs
+! rowspan="2" | Name
+! colspan="2" rowspan="2" | Images
+! rowspan="2" | Constellation
+! colspan="2" | Magnitude
+! rowspan="2" | Distance
+! colspan="2" | Coordinates
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_5195 NGC 5195]
+|rowspan="2" | [[File:M51 NGC 5195.jpg|175px]]
+|rowspan="2" | [[File:Ngc5195 xray.jpg|175px]]
+| Canes Venatici
+| 10.5
+|
+| 25 Mly, 7.7 Mpc
+| 13h 29m 59.6s
+| +47° 15′ 58″
+|-
+| colspan="7" | A dwarf galaxy that is interacting with the Whirlpool Galaxy. Because of its interaction with the Whirlpool Galaxy, it is highly distorted. In the picture, the Whirlpool Galaxy is on the left and NGC 5195 is the smaller galaxy to the right.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/IC_10 IC 10]
+|rowspan="2" | [[File:IC10.jpg|175px]]
+|rowspan="2" | [[File:Ic10 xray.jpg|175px]]
+| Cassiopeia
+| 10.4
+|
+| 2.2 Mly, 660 kpc
+| 00h 20m 17.3s
+| +59° 18′ 14″
+|-
+| colspan="7" | An irregular starburst galaxy featuring a large amount of Wolf-Rayet stars.
+|-
+!rowspan="2" | [http://chandra.harvard.edu/photo/2016/spt0346/ SPT 0346-52]
+|rowspan="2" | [[File:Spt03461.jpg|175px]]
+|rowspan="2" | [[File:Spt0346_comp.jpg|175px]]
+| Horologium
+|
+|
+| 12.7 billion light years
+| 03h 46m 41.13s
+| -52° 05' 02.11"
+|-
+| colspan="7" | A starburst galaxy that resulted from a collision between two galaxies. It has one of the highest star formation rates of any galaxy.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Messier_81 M81]/[https://en.wikipedia.org/wiki/Messier_82 M82]
+|rowspan="2" | [[File:M81.jpg|175px]]
+|rowspan="2" | [[File:M82.jpg|175px]]
+| Ursa Major
+| 6.94
+|
+| 8.5 ± 1.3 Mly (2.6 ± 0.4 Mpc)
+| 09h 55m 33.2s
+| +69° 3′ 55″
+|-
+| colspan="7" | M81, also known as "Bode's Galaxy", is a large spiral galaxy. It is the center of the M81 group. M82, also known as the "Cigar Galaxy", is a starburst galaxy in the same group as M81 (same region of sky).
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/ESO_137-001 ESO 137-001]
+|rowspan="2" | [[File:Eso137.jpg|175px]]
+|rowspan="2" | [[File:Eso137xray.jpg|175px]]
+| Triangulum Australe
+| Unknown apparent magnitude; apparent size 1.23 arcminutes × 0.55 arcminutes
+|
+| 220 million ly
+| 16h 13m 27.305s
+| −60° 45′ 50.59″
+|-
+| colspan="7" | ESO 137-001 is a barred spiral galaxy. As the galaxy moves to the center of the Abell 3627 cluster at 7 million kilometers per hour, it is stripped by hot gas thus creating a 260,000 light-year long tail. The intergalactic gas in the Abell 3627 is 180 million degrees Fahrenheit which causes star formation in the tails.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/SN_2014J SN 2014]
+|rowspan="2" | [[File:Sn2014j.jpg|175px]]
+|rowspan="2" | [[File:Sn2014j-light.jpg|175px]]
+| Ursa Major
+| n/a
+| n/a
+| 11,500,000 ly (3,500,000 pc)
+| 9h 55m 42.217s
+| 69° 40′ 26.56″
+|-
+| colspan="7" | SN 2014J was a type-Ia supernova in Messier 82 (the 'Cigar Galaxy', M82) discovered in mid-January 2014 by chance during an undergrad astronomy course at the University of London Observatory. It was the closest type-Ia supernova discovered for 42 years, and none have been closer as of 2018.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Phoenix_Cluster Phoenix Cluster]
+|rowspan="2" | [[File:Phoenix-cluster.jpg|175px]]
+|rowspan="2" | [[File:Phoenix w33.jpg|175px]]
+| Phoenix
+|
+|
+| 5.7 billion light years
+| 23h 44m 40.9s
+| −42° 41′ 54″
+|-
+| colspan="7" | The Phoenix Cluster (SPT-CL J2344-4243) is a massive, type I galaxy cluster in the Phoenix Constellation.It is one of the most massive galaxy clusters known, with the mass on the order of 2×1015 M☉. Most of the mass of the Phoenix Cluster is in the form of dark matter and its intracluster medium. The vast stellar halo of the Phoenix Cluster central galaxy extends to over 1.1 million light years from the center, making it one of the largest galaxies known. It is 22 times the diameter of our galaxy, and its starburst activity suggests that the galaxy is still growing larger. More X-Ray production than any other massive cluster.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_4993 NGC 4993]
+|rowspan="2" | [[File:Ngc4993.gif|175px]]
+|rowspan="2" | [[File:Eso1733c.jpg|175px]]
+| Hydra
+| 13.32
+| -20.85
+| 44.1 Mpc (144 Mly) / 130.5 million light years
+| 13h 09m 47.7s
+| −23° 23′ 02″
+|
+|-
+| colspan="7" | NGC 4993 is the site of the first astronomical event detected in both electromagnetic and gravitational radiation, the collision of two neutron stars, an event that provided direct confirmation that binary neutron star collisions produce short gamma-ray bursts.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/47_Tucanae 47 Tucanae]
+|rowspan="2" | [[File:47 Tucanae.jpg|175px]]
+|rowspan="2" | [[File:47tuc x9.jpg|175px]]
+| Tucana
+| +4.09
+|
+| 4.0 ± 0.35 kpc (13,000 ± 1,100 ly)
+| 00h 24m 05.67s
+| –72° 04′ 52.6″
+|
+|-
+| colspan="7" | 47 Tucanae, 47 Tuc (or NGC 104) is a globular cluster that is 120 light years across. 47 Tuc can be seen with the naked eye, holding the position of second brightest globular cluster after Omega Centauri. X9 (closest orbit between star and black hole, containing a white dwarf and a stellar-mass black hole in orbit).
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Chandra_Deep_Field_South Chandra Deep Field South]
+|rowspan="2" | [[File:Chandra deep field.jpg|175px]]
+|rowspan="2" | [[File:Cdfs bh.jpg|175px]]
+| Fornax
+| n/a
+| n/a
+| n/a
+| 3h 32m 28.0s
+| −27° 48′ 30″
+| n/a
+|-
+| colspan="7" | The Chandra Deep Field Survey South is a photograph taken for over 8 million seconds exposure by the Chandra Deep Field Telescope. It contains at least 5,000 black holes, which makes it a topic of interest for astronomy.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Centaurus_A Cen A]
+|rowspan="2" | [[File:Centaurus a.jpg|175px]]
+|rowspan="2" | [[File:Centarus a.jpg|175px]]
+| Centaurus
+| 6.84
+|
+| 13h 25m 27.6s
+| −43° 01′ 09″
+|
+|
+|-
+| colspan="7" | Either an elliptical or lenticular galaxy. One of the closest and brightest radio galaxies to Earth, and is a starburst galaxy. contains a black hole in the middle roughly at 55 million stellar masses. By taking radio observations of the jet separated by a decade, astronomers have determined that the inner parts of the jet are moving at about half of the speed of light. X-rays are produced farther out as the jet collides with surrounding gases resulting in the creation of highly energetic particles. The X-ray jets of Centaurus A are thousands of light-years long, while the radio jets are over a million light-years long.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Messier_100 M100]
+|rowspan="2" | [[File:M100.jpg|175px]]
+|rowspan="2" | [[File:Messier-100.jpg|175px]]
+| Coma Berenices
+| 9.5
+|
+| 12h 22m 54.9s
+| +15° 49′ 21″
+| 55 Mly
+|
+|-
+| colspan="7" | Messier 100 is a Grand Design intermediate spiral galaxy, which also is classified as a starburst galaxy. It is located in the Virgo cluster. The galaxy is estimated to contain about 400 billion stars.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Abell_400 Abell 400]/[https://en.wikipedia.org/wiki/3C_75 3C 75]
+|rowspan="2" | [[File:A400 comp.jpg|175px]]
+|rowspan="2" | [[File:3c75.jpeg|175px]]
+| Cetus
+|
+|
+| 02h 57m 38.6s
+| +06° 02′ 00″
+| 100 Mpc (326 Mly)
+|
+|-
+| colspan="7" | Abell 400 is a galaxy cluster which contains the galaxy NGC 1128 with two supermassive black holes (3C 75) spiraling towards merger. The black holes are an estimated 25,000 light years apart, and thus will take millions of years to collide. Should the two supermassive black holes merge, they will form a single super-supermassive black hole. 3C-75, the system containing the black holes, has four radio jets (two from each accreting black hole). It is travelling at 1200 kilometers per second through the cluster plasma, causing the jets to be swept back.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Antennae_Galaxies Antennae Galaxies / NGC 4038 & NGC 4039 ]
+|rowspan="2" | [[File:Antennae galaxy.jpg|175px]]
+|rowspan="2" | [[File:Antennae galaxies.jpg|175px]]
+| Corvus
+| 11.2 / 11.1
+|
+| 12h 01m 53.0s /  12h 01m 53.6s
+| −18° 52′ 10″ / −18° 53′ 11″
+| 45 Mly / 65 Mly
+|
+|-
+| colspan="7" | NGC 4038/NGC 4039 are a pair of interracting galaxies currently undergoing Starburst, in which the collision of gas and dust are influencing accelerated star formation. The nuclei of galaxies are expected to eventually form a single larger galaxy.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Sagittarius_A* Sagittarius A*]
+|rowspan="2" | [[File:Saggy a.jpg|175px]]
+|rowspan="2" | [[File:Saggy a real.jpg|175px]]
+| Sagittarius
+| n/a
+| n/a
+| 17h 45m 40.0409s
+| −29° 0′ 28.118″
+| 7,860 ± 140 ± 40 pc
+|
+|-
+| colspan="7" | Sgr A is a complex radio source in the center of the Milky Way galaxy. It is shrouded at optical wavelengths by hydrogen clouds, however can be detected due to it's large compact radio signature. Consists of three components: Sagittarius A East, a supernova remnant, Sagittarius A West, a spiral structure, and a complex radio signature in the center Sagittarius A*, which is assumed to be a supermassive black hole.
+|-
+|}
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2018 DSOs'''
+{{SpoilerBoxContent}}
+{|class="wikitable"
+|+2018 DSOs
+! rowspan="2" | Name
+! colspan="2" rowspan="2" | Images
+! rowspan="2" | Constellation
+! colspan="2" | Magnitude
+! rowspan="2" | Distance
+! colspan="2" | Coordinates
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/AG_Carinae AG Carinae]
+|rowspan="2" | [[File:AG_Carinae.png|175px]]
+|rowspan="2" | [[File:AG_Car_Lightcurve_AAVSO.png|175px]]
+| Carina
+| 6.96
+| ~-8 (visible band)
+| 6000 parsecs
+| 10h 56m 11.58s
+| -60° 27’ 12.8056"
+| [http://simbad.u-strasbg.fr/simbad/sim-basic?Ident=AG+carinae&submit=SIMBAD+search SIMBAD] [https://www.aavso.org/vsx/index.php?view=detail.top&oid=5814 AAVSO]
+|-
+| colspan="7" | One of the brightest stars in the Milky Way, surrounded by a nebula. Apparent brightness can vary drastically between 5.7 and 8.3. This star is considered in transition from a blue supergiant to a WR-star.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Betelgeuse Alpha Orionis]
+|rowspan="2" | [[File:Betelgeuse_collision.jpg|175px]]
+|rowspan="2" | [[file:Betelgeuse2.png|175px]]
+| Orion
+| 0.2-1.2
+| Absolute
+| ~643 ly
+| 05h 55m 10.3053s
+| +07° 24' 25.426"
+| [http://www.aavso.org/vsots_alphaori AAVSO], [http://en.wikipedia.org/wiki/Betelgeuse Wikipedia]
+|-
+|colspan="7" | More commonly known as Betelgeuse, this semi-regular (SRc) pulsating red supergiant will likely explode as a type II supernova within the next million years.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/ASASSN-15lh ASASSN-15lh]
+|rowspan="2" | [[File:ASASSN-15lh_location.jpg|175px]]
+|rowspan="2" | [[File:Hypernova_ASASSN-15lh.jpg|175px]]
+| Indus
+| 16.9
+| -23.5 (ultraviolet band)
+| 1,171 megaparsecs
+| 22h 2m 15.45s
+| -61° 39’ 34.64”
+| External Links
+|-
+| colspan="7" | Supernova detected by the All Sky Automated Survey. It is either the most luminous type I supernova ever discovered, called a hypernova, or a tidal disruption event.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Circinus_X-1 Circinus X-1]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| N/A
+| Apparent
+| Absolute
+| Distance
+| Right Ascension
+| Declination
+| External Links
+|-
+| colspan="7" | Neutron star orbiting a conventional super-massive star.
+|-
+!rowspan="2" | DEM L241
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Constellation
+| Apparent
+| Absolute
+| Distance
+| Right Ascension
+| Declination
+| [http://chandra.harvard.edu/photo/2014/deml241/]
+|-
+| colspan="7" | Description of the DSO, important characteristics, etc.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Geminga Geminga]
+|rowspan="2" | [[File:GemingaArt.jpg|175px]]
+|rowspan="2" | [[File:GemingaXRay2.jpg|175px]]
+|Gemini
+|Apparent
+|Absolute
+|815 ly
+|'''06h 33m 54.15s'''
+|'''+17° 46′ 12.9″'''
+| [http://chandra.harvard.edu/photo/2017/geminga/]
+|-
+| colspan="7" | Geminga is likely a decaying core of a Type II Supernova. It is highly visible in the gamma-ray spectrum.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/HR_5171 HR 5171 A]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Constellation
+| Apparent
+| Absolute
+| Distance
+| Right Ascension
+| Declination
+| External Links
+|-
+| colspan="7" | Description of the DSO, important characteristics, etc.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/IC_443 IC 443]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Gemini, near Eta Geminorum
+| Apparent
+| Absolute
+| 5000 ly, 1.5 kpc
+| 06h 17m 13s
+| +22° 31′ 05′′
+| External Links
+|-
+| colspan="7" | IC 443 is a remnant of a supernova that likely occurred 3000-30,000 years ago. It is one of the best-studied cases of a supernova remnant interacting with the surrounding molecular clouds.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/M82_X-2 M82 X-2]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Ursa Major
+| Apparent
+| Absolute
+| 12 million ly, 3.5 million pc
+| 09h 55m 51.0s
+| 69° 40′ 45″
+| External Links
+|-
+| colspan="7" | M-82 X-2, an X-ray pulsar in the Messier 82 galaxy, is noted for being an ultra luminous X-ray source (ULX), shining around 100x brighter than predicted. It is part of a binary system, where it revolves around the larger star about once every 2.5 days. It rotates about once every 1.37 seconds. It was uncovered by NuSTAR and verified by the Chandra and Swift spacecraft.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_6357 NGC 6357]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Scorpius
+| Apparent
+| Absolute
+| ~5500 ly, ~1680 pc
+| 17h 25m 34.2s
+| −34° 23′ 12"
+| External Links
+|-
+| colspan="7" | NGC 6357 is a diffuse nebula. It is also named the War and Peace nebula, because infrared pictures appear to depict a dove and a skull, and the Lobster nebula. It includes the Pismis cluster, containing a number of massive stars, as well as two young stellar clusters, G353.2+0.7 and G353.1+0.6. It is one of the most important sites of massive star formation in the Milky Way.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_7822 NGC 7822]
+|rowspan="2" | Image 1
+|rowspan="2" | Image 2
+| Cepheus
+| Apparent
+| Absolute
+| 2900 ly, 900 pc
+| 00h 01m 08.58s
+| +67° 25′ 17.0″
+| External Links
+|-
+| colspan="7" | NGC 7822 is a star forming region that is believed to be relatively young. It contains the star BD+66 1673, one of the hottest stars discovered within 1 kpn of the Sun, and is noted for its elephant trunk-shaped pillars of creation. Description of the DSO, important characteristics, etc.
 |-
-!rowspan="2" | FU Orionis
+!rowspan="2" | PSR B0355+54
 |rowspan="2" | Image 1
 |rowspan="2" | Image 2
-| Orion
+| Constellation
-|'''Apparent:''' '''Absolute:'''
+| Apparent
-|
+| Absolute
-|'''Right Ascension:''' 05h 45m 22.362s; '''Declination:''' +09° 04′ 12.31″
+| Distance
-|
+| Right Ascension
+| Declination
+| [http://chandra.harvard.edu/photo/2017/geminga/]
 |-
-| colspan="5" |
+| colspan="7" | Description of the DSO, important characteristics, etc.
 |-
-!rowspan="2" | TW Hya
+!rowspan="2" | [https://en.wikipedia.org/wiki/RCW103 RCW 103]
 |rowspan="2" | Image 1
 |rowspan="2" | Image 2
-| Hydra
+| Norma
-|'''Apparent:''' '''Absolute:'''
+| Apparent
-|
+| Absolute
-|'''Right Ascension:''' 11h 01m 52s; '''Declination:''' −34° 42′ 17″
+| 10110 to 10760 ly, 3100 to 3300 pc
-|
+| 16h 17m 30s
+| -51° 02′
+| External Links
+|-
+| colspan="7" | RCW 103 is a supernova remnant containing the neutron star 1E 161348-5055 at its center. This neutron star is notable for having a spin period much longer than other observed pulsars and much longer than what is predicted based on its age.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/S_Doradus S Doradus]
+|rowspan="2" | [[File:SDoradus_light_curve_.png|175px]]
+|rowspan="2" | [[File:SDoradus light curve full.png|175px]]
+| Dorado
+| 8.6-11.5
+| -10.0
+| 169000 ly, 51.8 kpc
+| 05h 18m 14.3550s
+| −69° 15′ 01.151″
+| External Links
 |-
-| colspan="5" |
+| colspan="7" | First observed in 1897, S Dor is a Luminous Blue Variable (LBV) located in the Large Magellanic Cloud (LMC). It is also the brightest member of NGC 1910, an open cluster. An entire class of variable stars are named after this DSO, which have the unusual characteristic of short-term microvariations superimposed over long-term macrovariations.
 |-
-!rowspan="2" | 2M1207
+!rowspan="2" | [https://en.wikipedia.org/wiki/SN_1987A SN 1987A]
 |rowspan="2" | Image 1
 |rowspan="2" | Image 2
-| Centaurus
+| Dorado
-|'''Apparent:''' '''Absolute:'''
+| Peaks around +2.9
-|
+| Absolute
-|'''Right Ascension:''' 12h 07m 33.47s; '''Declination:''' −39° 32′ 54.0″
+| 168,000 ly, 51.4 kpc
-|
+| 05h 35m 28.03s
+| −69° 16′ 11.79″
+| External Links
 |-
-| colspan="5" |
+| colspan="7" | The closest observed supernova since SN 1604, its light reached the Earth 23 February 1987. It was the first opportunity for astronomers to study the development of a supernova and learn more about core-collapse supernovae. Additionally, it detected gamma-ray radiation that proved that the post-explosion glow is radioactive. This was also the first supernova where astronomers were able to directly observe emitted neutrinos.
 |-
-!rowspan="2" | CoRoT-2
+!rowspan="2" | [https://en.wikipedia.org/wiki/W49B SN W49B]
 |rowspan="2" | Image 1
 |rowspan="2" | Image 2
 | Aquila
-|'''Apparent:''' '''Absolute:'''
+| Apparent
+| Absolute
+| 33,000 ly, 10 kpc
+| 19h 11m 09s
+| +09° 06′ 24″
+| [https://www.nasa.gov/mission_pages/chandra/multimedia/w49b.html Chandra] [http://chandra.harvard.edu/photo/2013/w49b/ Chandra (picture)]
+|-
+| colspan="7" | One of the most luminous SNRs in the galaxy at gamma-ray wavelengths, SN W49B also shows Cr and Mn x-ray emissions and has asymmetrically distributed Fe and Ni. It is thought to have left a black hole at the center - possibly the most recent black hole formed in the Milky Way.
+|-
+|}
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2017 DSOs'''
+{{SpoilerBoxContent}}
+{|class="wikitable"
+|+2017 DSOs
+! rowspan="2" | Name
+! colspan="2" rowspan="2" | Images
+! rowspan="2" | Constellation
+! colspan="2" | Magnitude
+! rowspan="2" | Distance
+! colspan="2" | Coordinates
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Henize_2-428 Henize 2-428]
+|rowspan="2" | [[File:Henize2428.jpg|175px]]
+|rowspan="2" | [[File:Henize2428_2.jpg|175px]]
+|Aquilla
+|
+|
+|
+|'''19h 13m 05.239s'''
+|'''+15° 46′ 39.80″'''
+|[https://www.space.com/28507-doomed-stars-crash-supernova-birth.html Space.com]
+|-
+| colspan="7" | Heaviest known WD binary system ;Will eventually merge in 700 million years; Originally binary star system of two sun-like stars of equivalent mass; Total mass 1.8 M_sun; Nebula is asymmetric because of binary system at center instead of single star; The planetary nebula came from the outer later of the original star, from contraction/expansion during the Red Giant stages; Period is 4 hours; Emit gravitational waves resulting in loss of energy; Will eventually cause Type 1a supernova when they merge, absolute magnitude =/= -19.3 because of increased mass: will not be useful as standard candle.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Stingray_Nebula Henize 3-1357 (Stingray Nebula)]
+|rowspan="2" | [[File:stingray1.jpg|125px]]
+|rowspan="2" | [[File:stingray2.jpg|175px]]
+|Ara
+|'''10.75'''
+|'''-3.0'''
+|'''18kly'''
+|'''17h 16m 21.071s'''
+|'''−59° 29′ 23.64″'''
+|[https://apod.nasa.gov/apod/ap011006.html APOD] [https://www.nasa.gov/multimedia/imagegallery/image_feature_919.html NASA Gallery]
+|-
+| colspan="7" |Youngest known planetary nebula; Radius 0.02 pc (as large as 130 solar systems), separated by 0.3arcsec; Age 2650 yr, gases light up for no more than 40 yr; Core mass 0.59 M_sun; ionized mass (nebula mass) 0.2Msol; Star at the center was originally a asymptotic giant branch B1 supergiant, still evolving to WD; White dwarf has strong hydrogen rich Balmer lines; Luminosity 3000 L_sun.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/RX_J0806.3%2B1527 HM Cancri] (RX J0806.3+1527)
+|rowspan="2" | [[Image:RXstar.jpg]]
+|rowspan="2" | [[File:Hmcancricurve.jpg|175px]]
+|Cancer
+|'''21.1'''
+|
+|~1600 ly
+|'''08h 06m 23.20s'''
+|'''+15° 27' 30.20"'''
+|[http://chandra.harvard.edu/photo/2005/j0806/ Chandra] [http://www.space.com/8023-fastest-orbiting-stars-circle-mere-minutes.html Space.com]
+|-
+| colspan="7" |Period 321.5 seconds: shortest period known; proper motion 1.1mas/yr; separation 0.0005 A; 400,000 km/sec, approaching at 2.0ft/day and orbit decaying at 1.2 ms/yr; total mass of 1.18 M_sun assuming separation of 1.02 x 10 -6 arcseconds; Double WD system, releases gravitational wave; X-Ray binary; X-Rays originate from accretion flow crashing into magnetic poles of white dwarf.
+|-
+!rowspan="2" | [http://chandra.harvard.edu/photo/2013/amcvn/ J075141/J174140 (two objects)]
+|rowspan="2" | [[File:J075_J174_1.jpg|175px]]
+|rowspan="2" | [[File:J075_J174_2.jpg|175px]]
+|Monceros/Draco
+|
 |
-|'''Right Ascension:''' 19h 27m 06.496s; '''Declination:''' +01° 23′ 01.38″
 |
+|'''07h 51m 41.20s/17h 41m 40.50s'''
+|'''-01° 41' 20.90"/+65° 26' 38.70"'''
+|[http://chandra.harvard.edu/photo/2013/amcvn/ Chandra]
+|-
+| colspan="7" | Binary system; white dwarf with a companion star; theoretically give off gravitational waves; Potentially may not create Type 1a Supernova, maybe a Type 1ax or .Ia Supernova, where detonation only on surface of star.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Messier_15 M15]
+|rowspan="2" | [[Image:M15 2.jpg|200px]]
+|rowspan="2" | [[File:m15_1.jpg|175px]]
+|Pegasus
+|'''6.2'''
+|'''-9.2'''
+|~33,600 ly
+|'''21h 29m 58.33s'''
+|'''+12° 10′ 01.2″'''
+|[http://messier.seds.org/m/m015.html Messier Catalogue] [http://www.astr.ua.edu/gifimages/m15r.html UAlabama] [https://apod.nasa.gov/apod/ap131119.html APOD]
 |-
-| colspan="5" |
+| colspan="7" |M15 is one of the oldest known and closest globular clusters to Earth. It is potentially one of the densest clusters known, containing over 100,000 stars with 112 variables, 8 pulsars, and 1 double neutron star system which gives off X-rays. It contains a planetary nebula called Pease 1, which shows that stellar evolution still takes place in globular clusters.
 |-
-!rowspan="2" | HD 209458b
+!rowspan="2" | [http://simbad.u-strasbg.fr/simbad/sim-id?Ident=NGC+1846 NGC 1846]
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:NGC1846_1.jpg|175px]]
+|rowspan="2" | [[File:NGC1846_3.jpg|175px]]
+|Dorado
+|
+|
+|'''160,000ly'''
+|'''05h 07m 33s'''
+|'''-67° 27' 41"'''
+|[https://www.nasa.gov/mission_pages/hubble/science/life-death.html NASA]
+|-
+| colspan="7" |NGC 1846 is a globular cluster with an unusual HR diagram: there are two turn-off points. Stars in a globular clusters form at the same time, meaning that the after the turnoff point there should be few stars. There are two different populations of stars in the clusters, with calculated age difference of around 300 million years, which is suspected to be caused by a merge of 2 globular clusters. Additionally, there is a potential planetary nebula within the cluster.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Eskimo_Nebula NGC 2392 (Eskimo Nebula)]
+|rowspan="2" |[[File:NGC2392_1.jpg|175px]]
+|rowspan="2" | [[File:NGC2392_2.jpg|175px]]
+|Gemini
+|'''10.1'''
+|'''0.4'''
+|'''~3000 ly'''
+|'''07h 29m 10.7669s'''
+|'''+20° 54′ 42.488″'''
+|[https://apod.nasa.gov/apod/ap130730.html APOD]
+|-
+| colspan="7" | NGC 2392 is a double shell planetary nebula often called the Eskimo nebula. The rings of the nebula are formed by the collision of fast and slow moving gases. The nebula is about 10,000 years old, and will last about another 50,000 years before it cannot be seen. The high X-ray emission could be potentially due to an unseen companion star. Notable features include strong OIII lines and weak Hα lines.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/NGC_2440 NGC 2440]
+|rowspan="2" |[[File:NGC2440_1.jpg|175px]]
+|rowspan="2" | [[File:NGC2440_2.jpg|175px]]
+|Puppis
+|'''9.4'''
+|
+|
+|'''07h 41m 54.91s'''
+|'''−18° 12′ 29.7″'''
+|[https://www.nasa.gov/pdf/208668main_Planetary_Nebula_Lithograph.pdf NASA] [https://apod.nasa.gov/apod/ap150517.html APOD] [http://chandra.harvard.edu/photo/2013/ngc2392/ Chandra]
+|-
+| colspan="7" | NGC 2440 is a planetary nebula containing the hottest known white dwarf, HD62166. The white dwarf itself has a temperature of 200,000K, and is surrounded by cooling gas. Most light is emitted in UV, ionizing the surrounding material. Its multipolar structure could potentially be caused by the shedding of mass in different locations or precession.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Mira Omicron Ceti (Mira)]
+|rowspan="2" | [[Image:star_mira_full.jpg|175px]]
+|rowspan="2" | [[File:Mira illustration.jpg|175px]]
+|Cetus
+|'''3.04'''
+|'''-5.04 to -5.16'''
+|~420 ly
+|'''02h 19m 20.79210s'''
+|'''–02° 58′ 39.4956″'''
+|[http://chandra.harvard.edu/photo/2005/mira/ Chandra] [http://science.nasa.gov/science-news/science-at-nasa/2007/15aug_mira/ NASA Science News]
+|-
+| colspan="7" | Mira is the prototype for Mira variables, which are red giants that oscillate over long periods. It is a binary star system, with Mira A the red giant on the asymptotic giant branch that is losing mass and Mira B the white dwarf that is accreting mass. Historically, it was the first non-supernova variable star discovered. Mira A(?) is not spherical, rather it is egg shaped due to the non-radial nature of its pulsations. Additionally, it exhibits a bow shock, which was only recently discovered due to the need for high tech observatories in UV. Mira has been observed in almost all frequencies, each having seemingly different shapes and giving specific information about the star.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Sirius Sirius A & B]
+|rowspan="2" |[[File:sirius_1.jpg|175px]]
+|rowspan="2" | [[File:sirius_2.jpg|175px]]
+|Canis Major
+|'''-1.46'''
+|'''1.42'''
+|'''8.6ly'''
+|'''06h 45m 09s'''
+|'''−16° 42′'''
+|[http://chandra.harvard.edu/photo/2000/0065/ Chandra] [https://apod.nasa.gov/apod/ap001006.html APOD]
+|-
+| colspan="7" | Sirius A and B are collectively the brightest star in the sky. Sirius A is a type A1 star, and Sirius B is a white dwarf. Sirius B was originally a bright blue star, which then shed its outer layers and became a white dwarf with broad hydrogen absorption lines. Their separation is 20 AU. Sirius A emits more radiation in the visible spectrum, while Sirius B emits more radiation in the X-ray spectrum.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/SN_2011fe SN2011fe]
+|rowspan="2" |[[File:SN2011fe_1.jpg| 175px]]
+|rowspan="2" | [[File:SN2011fe_2.jpg| 175px]]
+|Ursa Major
+|'''+9.9'''
+|'''-19'''
+|'''21 Mly'''
+|'''14h 03m 05.8s'''
+|'''+54° 16′ 25″'''
+|[https://www.nasa.gov/press/2014/august/nasa-s-chandra-observatory-searches-for-trigger-of-nearby-supernova/ NASA] [https://www.aavso.org/sn-2011fe AAVSO]
+|-
+| colspan="7" | SN 2011fe is the youngest Type 1a Supernova discovered. Discovered by the Palomar Transient Factory in 2011, it was used to test predictions and models of Type 1a supernovae. The progenitor was a carbon-oxygen white dwarf with a star no larger than the Sun. As with many type 1a supernovae, a large amount of energy was emitted through the decay of Ni-56. The location of the supernova was in the Pinwheel galaxy (M101).
+|-
+!rowspan="2" | [http://chandra.harvard.edu/photo/2008/snr0509/ SNR 0509-67.5]
+|rowspan="2" |[[File:SNR0509_1.jpg| 175px]]
+|rowspan="2" | [[File:SNR0509_2.jpg| 175px]]
+|Dorado
+|
+|
+|~52,000 pc/160 kly
+|'''05.01h 09.01m 31.01s'''
+|'''−67.01° 31.01′ 18.2″'''
+|[http://chandra.harvard.edu/photo/2010/snr0509/ Chandra] [https://apod.nasa.gov/apod/ap110125.html APOD]
+|-
+| colspan="7" | SNR 0509-67.5 is a Type 1a supernova remnant found in the Large Magellanic Cloud. It was mostly likely a double degenerate system given the lack of companions in the vicinity. There is little doubt as to where it was a Type 1a supernovae, due to the silicon found after the explosion. It was observed through a light echo where light reflects off interstellar dust, delaying its arrival by 400 years. The outer ring is gas that has been shocked and heated by the supernova., expanding at 11,000 mph.
+|-
+!rowspan="2" | [http://chandra.harvard.edu/photo/2016/g19/SNR G1.9+0.3]
+|rowspan="2" |[[File:G19_1.jpg| 175px]]
+|rowspan="2" | [[File:G19_2.jpg| 175px]]
+|Sagittarius
+|
+|
+|~7665 pcs
+|'''17h 48m 45.4s'''
+|'''-27° 10' 06"'''
+|[http://chandra.harvard.edu/photo/2016/g19/ Chandra]
+|-
+| colspan="7" | SNR G1.9+0.3 was most likely a double degenerate progenitor supernova. It is only 110 years old, the youngest Type Ia Supernova in the Milky Way. While the light would have reached the Earth in the 19th century, interstellar dust obscured it. However, the X-rays and radio waves were able to penetrate the gas. The remnant has a very asymmetric pattern, and exhibits synchrotron radiation (charged particles traveling in a curved path).
+|-
+!rowspan="2" | [http://www.aavso.org/vsots_sscyg SS Cygni]
+|rowspan="2" | [[File:Image 1102-ss-cygni-binary-star.jpg|175px]]
+|rowspan="2" | [[File:SSCygni.png|175px]]
+|Cygnus
+|'''7.7-12.4'''
+|'''2.42-7.12'''
+|114 pcs
+|'''21h 42m 42.804s'''
+|'''43° 35' 09.88"'''
+|[http://www.aavso.org/vsots_sscyg AAVSO] [http://chandra.harvard.edu/chronicle/0300/aavso.html Chandra]
+|-
+| colspan="7" | A recurrent nova with a very massive white dwarf and a red dwarf-type star cooler than our sun. Often classified as U Geminorum type dwarf nova. SS Cygni is commonly thought of as the prototype dwarf nova. There are three parts to the system, the two stars and the accretion disk. The accretion disk pulsates in brightness, causing its variability. The period of the system is 6.5 hours, with outbursts every 7-8 weeks.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/SN_1572 Tycho's SNR]
+|rowspan="2" | [[Image:TychoSNR.jpg]]
+|rowspan="2" | [[Image:tychos_2.jpg|175px]]
+|Cassiopeia
+|
+|
+|~9000 ly
+|'''00h 25m 17s'''
+|'''64° 08' 37"'''
+|[http://chandra.harvard.edu/photo/2005/tycho/ Chandra] [http://apod.nasa.gov/apod/ap090317.html NASA APOD]
+|-
+| colspan="7" |A Type 1a supernova remnant that was observed in 1572 and later studied by Tycho Brahe. It remains one of the few supernovae visible to the naked eye. It was detected again using radio waves in 1952, and found that a G0-G2 star was the companion to the white dwarf progenitor. The companion star was most likely around 1.4 solar masses.
+|-
+|}
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2016 DSOs'''
+{{SpoilerBoxContent}}
+{|class="wikitable"
+|+2016 DSOs
+! rowspan="2" | Name
+! colspan="2" rowspan="2" | Images
+! rowspan="2" | Constellation
+! colspan="2" | Magnitude
+! rowspan="2" | Distance
+! colspan="2" | Coordinates
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/2MASS_J22282889%E2%80%934310262 2MASS J22282889-431026]
+|rowspan="2" | [[File:2MASSJ22282889-431026 1.jpg|175px]]
+|rowspan="2" | [[]]
+| Grus
+|
+|
+| 35 ly, 10.6 pc
+| 22h 28m 28.894s
+| -43° 10′ 26.27″
+|
+|-
+| colspan="7" | 2MASS J22282889-4310262 is a brown dwarf used to study windstorms on brown dwarfs. These investigations were the first to observe the variability in weather on brown dwarfs at different altitudes. It was discovered by the Hubble Space Telescope and the Spitzer Space Telescope in 2013.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/51_Pegasi_b 51 Pegasi b]
+|rowspan="2" | [[File:51_Pegasi_b_1.jpg|175px]]
+|rowspan="2" | [[]]
+| Pegasus
+| 5.49
+|
+| 50.9 ly, 14.7 pc
+| 22h 57m 28.0s
+| +20° 46′ 08″
+|-
+| colspan="7" | 51 Pegasi b (also known as Bellerophon and Dimidium) was the first exoplanet found orbiting a main-sequence star.
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/55_Cancri 55 Cancri]
+|rowspan="2" | [[File:55 Cancri 1.jpg|175px]]
+|rowspan="2" | [[]]
+| Cancer
+|
+|
+| 40.3 ly
+| 08h 52m 35.81s
+| +28° 19′ 51.0″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/AB_Aurigae AB Aurigae]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Auriga
+|
+|
+| ~470 ly
+| 04h 55m 45.8445s
+| +30° 33′ 04.292″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Barnard_68 Barnard 68]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Ophiuchus
+|
+|
+| 500 ly
+| 17h 22m 38.2s
+| -23° 49′ 34
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/GD_165 GD 165]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Bootes
+|
+|
+| ~103 ly
+| 14h 24m 39.144s
+| +09° 17′ 13.98
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/HAT-P-11b HAT-P-11b]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Cygnus
+|
+|
+| 122 ly
+| 19h 50m 50.25s
+| +48° 04′ 51.1″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/HD_95086_b HD 95086]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Carina
+|
+|
+| 296 ly
+| 10h 57m 03s
+| -68° 40′ 02″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/HD_106906_b HD 106906b]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Crux
+|
+|
+| 300 ly
+| 12h 17m 53.0s
+| −54° 01′ 28″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/HR_8799 HR 8799]
+|rowspan="2" | [[File:HR 8799.jpg|175px]]
+|rowspan="2" | [[]]
+| Pegasus
+|
+|
+| 129 ly
+| 23h 07m 28.7150s
+| +21° 08′ 03.302"
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Kepler-186 Kepler-186]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Cygnus
+|
+|
+| 492 ly
+| 19h 54m 36.651s
+| +43° 57′ 18.06″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/Orion_Nebula M42]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Orion
+|
+|
+| 1344 ly
+| 05h 35m 17.3s
+| −05° 23′ 28″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/T_Tauri HR 8799]
+|rowspan="2" | [[File:T Tauri 1.jpg|175px]]
+|rowspan="2" | [[]]
+| Taurus
+|
+|
+| ~600 ly
+| 04h 21m 59.43445s
+| +19° 32′ 06.4182″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/WASP-18b WASP-18b]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Phoenix
+|
+|
+| 325 ly
+| 01h 37m 24.95s
+| –45° 40′ 40.8″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/WASP-43b WASP-43b]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Sextans
+|
+|
+| ~80 pc
+| 10h 19m 38s
+| −09° 48′ 23″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | [https://en.wikipedia.org/wiki/WISE_0855-0714 WISE 0855-0714]
+|rowspan="2" | [[]]
+|rowspan="2" | [[]]
+| Hydra
+|
+|
+| 7.53 ly
+| 08h 55m 10.83s
+| –07° 14′ 42.5″
+|
+|-
+| colspan="7" |
+|}
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2015 DSOs'''
+{{SpoilerBoxContent}}
+{|class="wikitable"
+|+2015 DSOs
+! rowspan="2" | Name
+! colspan="2" rowspan="2" | Images
+! rowspan="2" | Constellation
+! colspan="2" | Magnitude
+! rowspan="2" | Distance
+! colspan="2" | Coordinates
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
+|-
+!rowspan="2" | {{Wikipedia|FU Orionis}}
+|rowspan="2" | [[File:FU Orionis 1.jpg|175px]]
+|rowspan="2" | Image 2
+| Orion
+|
+|
+| ~1300 ly
+| 05h 45m 22.362s
+| +09° 04′ 12.31″
+| |[http://www.aavso.org/vsots_fuori AAVSO]
+|-
+| colspan="7" |
+|-
+!rowspan="2" | {{Wikipedia|TW Hydrae}}
+|rowspan="2" | [[File:TW Hya 1.jpg|175px]]
+|rowspan="2" | Image 2
+| Hydra
+|
+|
+| 176 ly
+| 11h 01m 52s
+| −34° 42′ 17″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | {{Wikipedia|2M1207}}
+|rowspan="2" | [[File:2M1207 1.jpg|175px]]
+|rowspan="2" | Image 2
+| Centaurus
+|
+|
+| 172 ly
+| 12h 07m 33.47s
+| −39° 32′ 54.0″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | {{Wikipedia|CoRoT-2}}
+|rowspan="2" | [[File:CoRoT-2.jpeg|175px]]
+|rowspan="2" | Image 2
+| Aquila
+|
+|
+| 930 ly
+| 19h 27m 06.496s
+| +01° 23′ 01.38″
+|
+|-
+| colspan="7" |
+|-
+!rowspan="2" | {{Wikipedia|HD 209458 b}}
+|rowspan="2" | [[File:HD 209458b.jpg|175px]]
 |rowspan="2" | Image 2
 | Pegasus
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 22h 03m 10.8s; '''Declination:''' +18° 53′ 04″
+| 154 ly
-|
+| 22h 03m 10.8s
+| +18° 53′ 04″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | HD 189733b
+!rowspan="2" | {{Wikipedia|HD 189733 b}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:HD 189733b.jpg|175px]]
 |rowspan="2" | Image 2
 | Vulpecula
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 20h 00m 43.71s; '''Declination:''' +22° 42′ 39.1″
+| 63.4 ly
-|
+| 20h 00m 43.71s
+| +22° 42′ 39.1″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | Kepler-7b
+!rowspan="2" | {{Wikipedia|Kepler-7b}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:Kepler-7b.png|175px]]
 |rowspan="2" | Image 2
 | Lyra
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 19h 14m 19.6s; '''Declination:''' +41° 5′ 23.3″
+| ~3400 ly
-|
+| 19h 14m 19.6s
+| +41° 5′ 23.3″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | GJ 1214b
+!rowspan="2" | {{Wikipedia|GJ 1214 b}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:GJ 1214b.jpg|175px]]
 |rowspan="2" | Image 2
 | Ophiuchus
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 17h 15m 18.942s; '''Declination:''' +04° 57′ 49.69″
+| 42 ly
-|
+| 17h 15m 18.942s
+| +04° 57′ 49.69″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | Beta Pictoris
+!rowspan="2" | {{Wikipedia|Beta Pictoris}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:Beta Pictoris.jpg|175px]]
 |rowspan="2" | Image 2
 | Pictor
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 05h 47m 17.1s; '''Declination:''' −51° 03′ 59″
+| 63.4 ly
-|
+| 05h 47m 17.1s
+| −51° 03′ 59″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | Fomalhaut
+!rowspan="2" | {{Wikipedia|Fomalhaut}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:Fomalhaut.jpg|175px]]
 |rowspan="2" | Image 2
 | Piscis Austrinus
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 22h 57m 39.0465s; '''Declination:''' −29° 37′ 20.050″
+| 25.13 ly
-|
+| 22h 57m 39.0465s
+| −29° 37′ 20.050″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | HR 8799
+!rowspan="2" | {{Wikipedia|HR 8799}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:HR 8799.jpg|175px]]
 |rowspan="2" | Image 2
 | Pegasus
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 23h 07m 28.7150s; '''Declination:''' +21° 08′ 03.302″
+| 129 ly
-|
+| 23h 07m 28.7150s
+| +21° 08′ 03.302″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | WISE 1049-5319
+!rowspan="2" | {{Wikipedia|WISE 1049-5319}} (Luhman 16)
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:WISE 1049-5319.jpg|175px]]
 |rowspan="2" | Image 2
 | Vela
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 10h 49m 18.723s; '''Declination:''' −53° 19′ 09.86″
+| 6.6 ly
-|
+| 10h 49m 18.723s
+| −53° 19′ 09.86″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | Gliese 229B
+!rowspan="2" | {{Wikipedia|Gliese 229B}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:Gliese 229B.jpg|175px]]
 |rowspan="2" | Image 2
 | Lepus
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 06h 10m 34.6154s; '''Declination:''' −21° 51′ 52.715″
+| 18.8 ly
-|
+| 06h 10m 34.6154s
+| −21° 51′ 52.715″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | LP 944-20
+!rowspan="2" | {{Wikipedia|LP 944-20}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:LP 944-20.jpg|175px]]
 |rowspan="2" | Image 2
 | Fornax
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 03h 39m 35.220s; '''Declination:''' –35° 25′ 44.09″
+| 20.9 ly
-|
+| 03h 39m 35.220s
+| –35° 25′ 44.09″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
 !rowspan="2" | N159
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:N159.jpg|175px]]
 |rowspan="2" | Image 2
 | Dorado
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 05h 40m 04.2s; '''Declination:''' –69° 44′ 43″
+| 170000 ly
-|
+| 05h 40m 04.2s
+| –69° 44′ 43″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
-!rowspan="2" | M20
+!rowspan="2" | {{Wikipedia|Trifid Nebula|M20}}
-|rowspan="2" | Image 1
+|rowspan="2" | [[File:M20.jpg|175px]]
 |rowspan="2" | Image 2
 | Sagittarius
-|'''Apparent:''' '''Absolute:'''
+|
 |
-|'''Right Ascension:''' 18h 02m 23s; '''Declination:''' −23° 01′ 48″
+| 5200 ly
-|
+| 18h 02m 23s
+| −23° 01′ 48″
+|
 |-
-| colspan="5" |
+| colspan="7" |
 |-
 |}
-==Previous Years' DSO Lists==
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2014 DSOs'''
-<spoiler text="2014 DSOs">
+{{SpoilerBoxContent}}
 {|class="wikitable"
 |+2014 DSOs
-!Name
+! rowspan="2" | Name
-! colspan="2" | Images
+! colspan="2" rowspan="2" | Images
-!Constellation
+! rowspan="2" | Constellation
-!Magnitude
+! colspan="2" | Magnitude
-!Distance
+! rowspan="2" | Distance
-!Coordinates
+! colspan="2" | Coordinates
-!External Links
+! rowspan="2" | External Links
+|-
+! Apparent
+! Absolute
+! Right Ascension
+! Declination
 |-
-!rowspan="2" | Mira ''(Omicron Ceti)''
+!rowspan="2" | {{Wikipedia|Mira}} ''(Omicron Ceti)''
 |rowspan="2" | [[Image:star_mira_full.jpg|175px]]
 |rowspan="2" | [[File:Mira illustration.jpg|175px]]
 |Cetus
-|'''Apparent:''' 2.0 to 10.1 '''Absolute:''' ~-2.5 to 4.7
+|2.0 to 10.1
+|~-2.5 to 4.7
 |~420 ly
-|'''Right Ascension:''' 02h 19m 20.70s; '''Declination:''' -02° 58' 39.51"
+|02h 19m 20.70s
+|<nowiki>-</nowiki>02° 58' 39.51"
 |[http://chandra.harvard.edu/photo/2005/mira/ Chandra] [http://science.nasa.gov/science-news/science-at-nasa/2007/15aug_mira/ NASA Science News]
 |-
-| colspan="5" |Mira is the prototype for Mira variables, which are red giants that oscillate over long periods. It is a binary star system, with Mira A the red giant that is losing mass and Mira B the white dwarf that is accreting mass.
+| colspan="7" |Mira is the prototype for Mira variables, which are red giants that oscillate over long periods. It is a binary star system, with Mira A the red giant that is losing mass and Mira B the white dwarf that is accreting mass.
 |-
-!rowspan="2" | W49B
+!rowspan="2" | {{Wikipedia|W49B}}
 |rowspan="2" | [[File:W49b 1680.jpg|175px]]
 |rowspan="2" | [[File:W49b w44.jpeg|175px]]
 |Aquila
-|'''Apparent:'''
+|
+|
 |~26,000 light years
-|'''Right Ascension:''' 19h 11m 07s '''Declination:''' +09° 06' 00"
+|19h 11m 07s
+|<nowiki>+</nowiki>09° 06' 00"
 |[http://chandra.harvard.edu/photo/2013/w49b/ Chandra]
 |-
-| colspan="5" |W49B is an SNR that is theorized to have a distorted shape and a black hole from the explosion that created the remnant. It may be the most recent black hole formed in the Milky Way.
+| colspan="7" |W49B is an SNR that is theorized to have a distorted shape and a black hole from the explosion that created the remnant. It may be the most recent black hole formed in the Milky Way.
 |-
-!rowspan="2" | Tycho's SNR ''(SN 1572)''
+!rowspan="2" | {{Wikipedia|SN 1572}} ''(Tycho's Supernova)''
 |rowspan="2" | [[Image:TychoSNR.jpg]]
 |rowspan="2" | [[File:Tycho.jpg|175px]]
 |Cassiopeia
-|'''Peak Apparent:''' -4
+|<nowiki>-</nowiki>4
+|
 |~9000 ly
-|'''Right Ascension:''' 00h 25m 17s; '''Declination:''' +64° 08' 37"
+|00h 25m 17s
+|<nowiki>+</nowiki>64° 08' 37"
 |[http://chandra.harvard.edu/photo/2005/tycho/ Chandra] [http://apod.nasa.gov/apod/ap090317.html NASA APOD]
 |-
-| colspan="5" |A Type 1a supernova remnant that burst in early November 1572 and was later studied by Tycho Brahe.
+| colspan="7" |A Type 1a supernova remnant that burst in early November 1572 and was later studied by Tycho Brahe.
 |-
-!rowspan="2" | Vela SNR
+!rowspan="2" | {{Wikipedia|Vela Supernova Remnant|Vela SNR}}
 |rowspan="2" | [[File:VelaSNR.jpg|175px]]
 |rowspan="2" | [[File:Vela.jpg|175px]]
 |Vela
-|'''Apparent:''' 12
+|12
+|
 |~800 ly
-|'''Right Ascension:''' 08h 35m 20.66s '''Declination:''' -45° 10' 35.2"
+|08h 35m 20.66s
+|<nowiki>-</nowiki>45° 10' 35.2"
 |[http://apod.nasa.gov/apod/ap100910.html APOD]
 |-
-| colspan="5" |The closest known supernova remnant to us with a notable pulsar and neighboring nebulae. Contains NGC 2736 or the Pencil Nebula, which is thought to have formed from part of the shock wave of the Vela SNR
+| colspan="7" |The closest known supernova remnant to us with a notable pulsar and neighboring nebulae. Contains NGC 2736 or the Pencil Nebula, which is thought to have formed from part of the shock wave of the Vela SNR
 |-
-!rowspan="2" | G1.9+0.3
+!rowspan="2" | {{wikipedia|G1.9+0.3}}
 |rowspan="2" | [[File:27949913 640.jpg|175px]]
 |rowspan="2" | [[File:H-398-2pan2 B radio.jpg|175px]]
 |Sagittarius
-|'''Apparent:'''
+|
+|
 |~28,000 ly
-|'''Right Ascension:''' 17h 48m 45s '''Declination:''' -27° 10' 00"
+|17h 48m 45s
+|<nowiki>-</nowiki>27° 10' 00"
 |[http://chandra.harvard.edu/photo/2013/g19/ Chandra] [http://www.nasa.gov/mission_pages/chandra/news/08-062.html NASA]
 |-
-| colspan="5" |Possibly the most recent supernovae, specifically Type Ia, in the Milky Way. It has an extremely asymmetric pattern. Explosion was likely highly non-uniform and unusually energetic.
+| colspan="7" |Possibly the most recent supernovae, specifically Type Ia, in the Milky Way. It has an extremely asymmetric pattern. Explosion was likely highly non-uniform and unusually energetic.
 |-
-!rowspan="2" | Eta Carinae
+!rowspan="2" | {{Wikipedia|Eta Carinae}}
 |rowspan="2" | [[File:EtaCarinae.jpg|175px]]
 |rowspan="2" | [[File:New eta carinae.jpg|175px]]
 |Carina
-|'''Apparent:''' -0.8 to 7.9
+|<nowiki>-</nowiki>0.8 to 7.9
+|
 |~7,500 ly
-|'''Right Ascension:'''10h 45m 03.591s '''Declination:'''−59° 41′ 04.26″
+|10h 45m 03.591s
+|<nowiki>-</nowiki>59° 41′ 04.26″
 |[http://chandra.harvard.edu/photo/2007/etacar/ Chandra] [http://apod.nasa.gov/apod/ap121230.html APOD]
 |-
-| colspan="5" | A hypergiant with a smaller companion. Massive supernova, very bright. It has a chance of exploding at any time, and will be so bright that it rivals the moon.
+| colspan="7" | A hypergiant with a smaller companion. Massive supernova, very bright. It has a chance of exploding at any time, and will be so bright that it rivals the moon.
 |-
-!rowspan="2" | SS Cygni
+!rowspan="2" | {{Wikipedia|SS Cygni}}
 |rowspan="2" | [[File:Image 1102-ss-cygni-binary-star.jpg|175px]]
 |rowspan="2" | [[File:SSCygni.png|175px]]
 |Cygnus
-|'''Apparent:''' 7.7-12.4
+|7.7-12.4
+|
 |370 ly
-|'''Right Ascension:''' 21h 42m 42.804s '''Declination:''' 43° 35' 09.88"
+|21h 42m 42.804s
+|43° 35' 09.88"
 |[http://www.aavso.org/vsots_sscyg AAVSO] [http://chandra.harvard.edu/chronicle/0300/aavso.html Chandra]
 |-
-| colspan="5" | A recurrent nova with a very massive white dwarf and a red dwarf-type star cooler than our sun. Often classified as U Geminorum type dwarf nova.
+| colspan="7" | A recurrent nova with a very massive white dwarf and a red dwarf-type star cooler than our sun. Often classified as U Geminorum type dwarf nova.
 |-
-! rowspan="2" | T Tauri
+!rowspan="2" | {{Wikipedia|T Tauri}}
 |rowspan="2" | [[Image:tTauri.jpg]]
 |rowspan="2" | [[File:T Tauri 2MASS.jpg|175px]]
 |Taurus
-|'''Apparent:''' 9.3-14
+|9.3-14
+|
 |462 ly
-|'''Right Ascension:''' 04h 21m 59.43s; '''Declination:''' +19° 32′ 06.42″
+|04h 21m 59.43s
+|<nowiki>+</nowiki>19° 32′ 06.42″
 |[http://apod.nasa.gov/apod/ap090803.html NASA APOD] [http://www.universetoday.com/24802/t-tauri-star/ Universe Today]
 |-
-| colspan="5" |T Tauri is the prototype for T Tauri stars, which are the stars in the life stage between protostar and main sequence. there is a nebula located close to the star called Hind's Variable Nebula, which changes in luminosity as T Tauri varies.
+| colspan="7" |T Tauri is the prototype for T Tauri stars, which are the stars in the life stage between protostar and main sequence. there is a nebula located close to the star called Hind's Variable Nebula, which changes in luminosity as T Tauri varies.
 |-
-!rowspan="2" | GRS 1915+105
+!rowspan="2" | {{Wikipedia|GRS 1915+105}}
 |rowspan="2" | [[File:GRS1915+105 VLA.jpg|175px]]
 |rowspan="2" | [[File:Grs.jpg|175px]]
 |Aquila
-|'''Apparent:'''
+|
+|
 |40,000 ly
-|'''Right Ascension:''' 19h 15m 11.60s '''Declination:''' +10° 56' 44.00''
+|19h 15m 11.60s
+|<nowiki>+</nowiki>10° 56' 44.00''
 |[http://chandra.harvard.edu/photo/2011/g1915/ Chandra]
 |-
-| colspan="5" | GRS 1915+105 is an x-ray binary star system containing a regular star and a black hole. It is one of the heaviest stellar black holes so far known in the Milky Way and has a self-regulating black hole.
+| colspan="7" | GRS 1915+105 is an x-ray binary star system containing a regular star and a black hole. It is one of the heaviest stellar black holes so far known in the Milky Way and has a self-regulating black hole.
 |-
-!rowspan="2" | 47 Tucanae
+!rowspan="2" | {{Wikipedia|47 Tucanae}}
 |rowspan="2" | [[File:47tuc salt.jpg|175px]]
 |rowspan="2" | [[File:47Tucanae.PNG|175px]]
 |Tucana
-|'''Apparent:''' 4.91
+|4.91
+|
 |16,700 ly
-|'''Right Ascension:''' 00h 24m 05.67s '''Declination:''' –72° 04′ 52.6″
+|00h 24m 05.67s
+|<nowiki>-</nowiki>72° 04′ 52.6″
 |[http://chandra.harvard.edu/photo/2005/47tuc/ Chandra] [http://apod.nasa.gov/apod/ap121206.html APOD] [http://apod.nasa.gov/apod/ap110116.html APOD]
 |-
-| colspan="5" | 47 Tucanae is the second brightest globular cluster after Omega Centauri and one of the most massive globular clusters in the galaxy.
+| colspan="7" | 47 Tucanae is the second brightest globular cluster after Omega Centauri and one of the most massive globular clusters in the galaxy.
 |-
-!rowspan="2" | The Trapezium
+!rowspan="2" | {{Wikipedia|Trapezium Cluster|The Trapezium}}
 |rowspan="2" | [[File:Orion1.jpg|175px]]
 |rowspan="2" | [[File:Trapcol.jpg|175px]]
 |Orion
-|'''Apparent:''' 4
+|4
+|
 |1,600 ly
-|'''Right Ascension:''' 05h 35.4m '''Declination:''' −05° 27′
+|05h 35.4m
+|<nowiki>-</nowiki>05° 27′
 |[http://chandra.harvard.edu/press/00_releases/press_110900.html Chandra] [http://apod.nasa.gov/apod/ap050710.html APOD] [http://apod.nasa.gov/apod/ap000830.html APOD]
 |-
-| colspan="5" | The Trapezium is a relatively young open cluster in the heart o the Orion Nebula.
+| colspan="7" | The Trapezium is a relatively young open cluster in the heart of the Orion Nebula.
 |-
-!rowspan="2" | T Pyxidis
+!rowspan="2" | {{Wikipedia|T Pyxidis}}
 |rowspan="2" | [[File:250px-Tpyx hst big.jpg|175px]]
 |rowspan="2" | [[File:TPyxidis.jpg|175px]]
 |Pyxis
-|'''Apparent:''' 6.4-15.5
+|6.4-15.5
+|
 |15,600 ly
-|'''Right Ascension:''' 09h 04m 41.50s '''Declination:''' −32° 22′ 47.5″
+|09h 04m 41.50s
+|<nowiki>-</nowiki>32° 22′ 47.5″
 |[http://www.aavso.org/vsots_tpyx AAVSO] [http://www.nasa.gov/mission_pages/hubble/science/t-pyxidis.html NASA] [http://apod.nasa.gov/apod/ap970925.html APOD]
 |-
-| colspan="5" | T Pyxidis is a recurrent nova and nova remnant containing a sun-like star and a white dwarf. It is now close to the Chandrasekhar limit and might soon explode as a type 1a supernova.
+| colspan="7" | T Pyxidis is a recurrent nova and nova remnant containing a sun-like star and a white dwarf. It is now close to the Chandrasekhar limit and might soon explode as a type 1a supernova.
 |-
 !rowspan="2" | Abell 30
@@ Line 342: / Line 1,550: @@
 |rowspan="2" | [[File:A30 w44.jpg|175px]]
 |Cancer
-|'''Apparent:''' 15.6
+|15.6
+|
 |5,500 ly
-|'''Right Ascension:''' 08h 46m 53.50s '''Declination:''' +17° 52' 45.40"
+|08h 46m 53.50s
+|<nowiki>+</nowiki>17° 52' 45.40"
 |[http://chandra.harvard.edu/photo/2012/a30/ Chandra]
 |-
-| colspan="5" | Abell 30 is a planetary nebula in a special, rarely-seen phase of evolution. The evolution of A30 stalled and then started up again, so the planetary nebula was reborn.
+| colspan="7" | Abell 30 is a planetary nebula in a special, rarely-seen phase of evolution. The evolution of A30 stalled and then started up again, so the planetary nebula was reborn.
 |-
-! rowspan="2" | RX J0806.3+1527 ''(HM Cnc)''
+! rowspan="2" | {{Wikipedia|RX J0806.3+1527}} ''(HM Cnc)''
 |rowspan="2" | [[Image:RXstar.jpg]]
 |rowspan="2" | [[File:RXJ0806.PNG|175px]]
 |Cancer
-|'''Apparent:''' 21.1
+|21.1
+|
 |~1600 ly
-|'''Right Ascension:''' 08h 06m 23.20s; '''Declination:''' +15° 27' 30.20"
+|08h 06m 23.20s
+|<nowiki>+</nowiki>15° 27' 30.20"
 |[http://chandra.harvard.edu/photo/2005/j0806/ Chandra] [http://www.space.com/8023-fastest-orbiting-stars-circle-mere-minutes.html Space.com]
 |-
-| colspan="5" |An x-ray binary system composed of two white dwarves that are rapidly orbiting each other. Their orbits are slowly getting closer, and the stars will eventually collide. Since they are faint, they are being observed by x-ray emissions.
+| colspan="7" |An x-ray binary system composed of two white dwarves that are rapidly orbiting each other. Their orbits are slowly getting closer, and the stars will eventually collide. Since they are faint, they are being observed by x-ray emissions.
 |-
 !rowspan="2" | V1647 Ori
@@ Line 364: / Line 1,576: @@
 |rowspan="2" | [[File:Nasa ori star.jpg|175px]]
 |Orion
-|'''Apparent:'''
+|
+|
 |1,300 ly
-|'''Right Ascension:''' 05h 46m 13.10s '''Declination:''' -00° 06' 05.00"
+|05h 46m 13.10s
+|<nowiki>-</nowiki>00° 06' 05.00"
 |[http://chandra.harvard.edu/photo/2012/v1647/ Chandra] [http://www.nasa.gov/topics/universe/features/xray-flaunt.html NASA]
 |-
-| colspan="5" | V1647 Ori is a FU Orionis variable star, a low-mass protostar still partly surrounded by its birth cloud. It is spinning as fast as it can without ripping itself to pieces.
+| colspan="7" | V1647 Ori is a FU Orionis variable star, a low-mass protostar still partly surrounded by its birth cloud. It is spinning as fast as it can without ripping itself to pieces.
 |-
 !rowspan="2" | V1
@@ Line 375: / Line 1,589: @@
 |rowspan="2" | [[File:V1.jpg|175px]]
 |Andromeda
-|'''Apparent:'''
+|
+|
 |2.5 million ly
-|'''Right Ascension:''' 00h 41m 27s '''Declination:''' 00h 41m 27s
+|00h 41m 27s
+|
 |[http://hubblesite.org/newscenter/archive/releases/2011/15/full/ Hubblesite] [http://www.nasa.gov/mission_pages/hubble/science/star-v1.html NASA]
 |-
-| colspan="5" | A Cepheid variable star in the Andromeda galaxy that began Hubble's discovery of the expansion of the universe by showing that the Andromeda galaxy was not part of our galaxy.
+| colspan="7" | A Cepheid variable star in the Andromeda galaxy that began Hubble's discovery of the expansion of the universe by showing that the Andromeda galaxy was not part of our galaxy.
 |-
-!rowspan="2" | NGC 1846
+!rowspan="2" | {{Wikipedia|NGC 1846}}
 |rowspan="2" | [[File:1846.jpg|175px]]
 |rowspan="2" | [[File:NGC1846.PNG|175px]]
 |Doradus
-|'''Apparent:''' 11.3
+|11.3
+|
 |~160,000 ly
-|'''Right Ascension:''' 05h 07m 35.25s '''Declination:''' -67° 27' 38.9"
+|05h 07m 35.25s
+|<nowiki>-</nowiki>67° 27' 38.9"
 |[http://hubblesite.org/newscenter/archive/releases/2011/35/ Hubblesite] [http://www.nasa.gov/mission_pages/hubble/science/life-death.html NASA]
 |-
-| colspan="5" | NGC 1846 is a globular cluster located in the outer halo of the LMC. The most intriguing object is a faint green planetary nebula, and it doesn't seem to belong in the cluster.
+| colspan="7" | NGC 1846 is a globular cluster located in the outer halo of the LMC. The most intriguing object is a faint green planetary nebula, and it doesn't seem to belong in the cluster.
 |-
-!rowspan="2" | NGC 3132
+!rowspan="2" | {{Wikipedia|NGC 3132}}
 |rowspan="2" | [[File:NGC 3132.jpg|175px]]
 |rowspan="2" | [[File:NGC3132 Master1.jpg|175px]]
 |Vela
-|'''Apparent:''' 9.87
+|9.87
+|
 |~2,000 ly
-|'''Right Ascension:''' 10h 07m 01.7640s '''Declination:''' −40° 26′ 11.060″
+|10h 07m 01.7640s
+|<nowiki>-</nowiki>40° 26′ 11.060″
 |[http://apod.nasa.gov/apod/ap130409.html APOD] [http://apod.nasa.gov/apod/ap110626.html APOD]
 |-
-| colspan="5" | NGC 3132 is a planetary nebula. There are two stars in the nebula, one of which is a white dwarf.
+| colspan="7" | NGC 3132 is a planetary nebula. There are two stars in the nebula, one of which is a white dwarf.
 |-
 |}
-</spoiler>
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2013 DSOs'''
-<spoiler text="2013 DSOs">
+{{SpoilerBoxContent}}
 {|class="wikitable"
 |+2013 DSOs
@@ Line 420: / Line 1,640: @@
 !rowspan="2" | Cassiopeia A
 |rowspan="2" | [[File: Cassiopeia_A.jpg|175px]]
-|rowspan="2" | [[File:cas_a-2.jpg|175px]]
+|rowspan="2" | [[File: CasAComposite.jpg|175px]]
 |Cassiopeia
 |'''Apparent:''' Peak=~6
@@ Line 486: / Line 1,706: @@
 !rowspan="2" | Messier Object M1 (Crab Nebula)
 |rowspan="2" | [[File:Crab nebula m1.jpg|175px]]
-|rowspan="2" | [[File:NASA_m1.jpg|175px]]
+|rowspan="2" | [[File:CrabComposite.jpg|175px]]
 |Taurus
 |'''Apparent:''' 8.4
@@ Line 594: / Line 1,814: @@
 |colspan="5" | One of the largest emission nebulae in the night sky. It contains "the Elephant's Trunk", a dark, dense globule in the nebula.
 |}
-</spoiler>
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2012 DSOs'''
-<spoiler text="2012 DSOs">
+{{SpoilerBoxContent}}
 {|class="wikitable"
 |+2012 DSO's
@@ Line 641: / Line 1,861: @@
 |-
 ! rowspan="2" | Kepler's SNR ''(SN 1604)''
-|rowspan="2" | [[Image:KeplerSNR.jpg]]
+|rowspan="2" | [[Image:KeplerSNR.jpg|200px]]
 |rowspan="2" |
 |Ophiuchus
@@ Line 663: / Line 1,883: @@
 |-
 ! rowspan="2" | Messier 15 ''(NGC 7078)''
-|rowspan="2" | [[Image:M15.jpg]]
+|rowspan="2" | [[Image:M15 2.jpg]]
-|rowspan="2" |
+|rowspan="2" | [[Image:M15 1.jpg|175px]]
 |Pegasus
 |'''Apparent:''' 6.2
@@ Line 674: / Line 1,894: @@
 |-
 ! rowspan="2" | Carina Nebula
-|rowspan="2" | [[Image:CarinaNebula.jpg]]
+|rowspan="2" | [[File: CarinaCombined.jpg|175px]]
 |rowspan="2" | [[File:Carinanebula.jpg|175px]]
 |Carina
@@ Line 784: / Line 2,004: @@
 |-
 |}
-</spoiler>
+{{SpoilerBoxEnd}}
+{{SpoilerBoxBegin}}'''2011 DSOs'''
-<spoiler text="2011 DSOs">
+{{SpoilerBoxContent}}
 {|class="wikitable"
 |+2011 DSO's
@@ Line 949: / Line 2,169: @@
 |[http://chandra.harvard.edu/photo/2009/jkcs041/ Chandra: JKCS041]
 |-
-| colspan="5" |
+| colspan="5" |An extremely distant galaxy cluster, about 10.2 billion years away.  This object may help scientists better understand how the universe developed at an early age.
 |-
 !rowspan="2" | Messier 77 ''(NGC 1068, UGC 2188, PGC 10266, Arp 37, 3C 71)''
@@ Line 960: / Line 2,180: @@
 |[http://chandra.harvard.edu/photo/2010/ngc1068/ Chandra: Messier 77] [http://www.universetoday.com/39131/messier-77/ Universe Today: Messier 77]
 |-
-| colspan="5" |
+| colspan="5" |One of the nearest and brightest galaxies containing a supermassive black hole. Million-mile per hour wind from the black hole shapes the galaxy.
 |-
 !rowspan="2" | H2356-309
@@ Line 971: / Line 2,191: @@
 |[http://chandra.harvard.edu/photo/2010/h2356/ Chandra: H2356-309]
 |-
-| colspan="5" |
+| colspan="5" |A collection of extremely distant warm hot intergalactic medium, some of the “missing matter” in the nearby universe.
 |-
 |}
-</spoiler>
+*[[Media:DSO.docx|Basic note sheet]] for the 2011 DSOs, intended for use when asked to quickly identify things, or for those new to the event.
+{{SpoilerBoxEnd}}
-[http://scioly.org/w/images/8/88/DSO.docx Basic note sheet] for the 2011 DSOs, intended for use when asked to quickly identify things, or for those new to the event.
+{{SpoilerBoxBegin}}'''2010 DSOs'''
+{{SpoilerBoxContent}}
-<spoiler text="2010 DSOs">
 *Epsilon Aurigae**
 **[http://www.aavso.org/vsots_epsaur AAVSO: Epsilon Aurigae]
@@ Line 992: / Line 2,210: @@
 -**is part of a special viewing campaign this year and will be included up to at least 2011.
-</spoiler>
+{{SpoilerBoxEnd}}
-<spoiler text="2009 DSOs">
+{{SpoilerBoxBegin}}'''2009 DSOs'''
+{{SpoilerBoxContent}}
 *Circinus X-1
 **http://www.daviddarling.info/encyclopedia/C/Circinus_X-1.html
@@ Line 1,033: / Line 2,252: @@
 -*is part of a special viewing campaign this year and will be included up to at least 2011.
-</spoiler>
+{{SpoilerBoxEnd}}
+==See Also==
+:[[Astronomy]]
+:[[Astronomy/Stellar Evolution]]
+:[[Astronomy/Variable Stars]]
+:[[Astronomy/Star and Planet Formation]]
+:[[Astronomy/Type Ia Supernovae]]
+:[[Astronomy/Type II Supernovae]]
+:[[Astronomy/Exoplanets]]
 ==Links==
-:[http://scioly.org/w/images/8/88/DSO.docx Basic note sheet] for the 2010-2011 DSOs
+:[http://scioly.org/wiki/images/8/88/DSO.docx Basic note sheet] for the 2011 DSOs
 :[http://simbad.u-strasbg.fr/simbad/sim-fid SIMBAD Astronomy Database for DSOs]
-[[Category:Astronomy]]
+{{Astronomy}}
+[[Category:Event Topics]]
+[[Category:Astronomy]]
+[[Category:Event Pages]]
+[[Category:Study Event Pages]]