Comet ISON

From Wikipedia, the free encyclopedia - View original article

C/2012 S1 (ISON)
Comet ISON (C-2012 S1) by TRAPPIST on 2013-11-15.jpg
Comet ISON as captured by TRAPPIST on 15 November 2013
Discovered byVitaly Nevsky and
Artyom Novichonok
at ISON-Kislovodsk, Russia
using a 0.4-m reflector (D00)[1]
Discovery date21 September 2012
Orbital characteristics A
Epoch14 December 2013
(JD 2456640.5)[2]
Perihelion0.01244 AU (q)[2]
1.0002 (epoch 2050)[3]
Orbital periodEjection trajectory (epoch 2050)[3]
Last perihelion28 November 2013[2]
Jump to: navigation, search
C/2012 S1 (ISON)
Comet ISON (C-2012 S1) by TRAPPIST on 2013-11-15.jpg
Comet ISON as captured by TRAPPIST on 15 November 2013
Discovered byVitaly Nevsky and
Artyom Novichonok
at ISON-Kislovodsk, Russia
using a 0.4-m reflector (D00)[1]
Discovery date21 September 2012
Orbital characteristics A
Epoch14 December 2013
(JD 2456640.5)[2]
Perihelion0.01244 AU (q)[2]
1.0002 (epoch 2050)[3]
Orbital periodEjection trajectory (epoch 2050)[3]
Last perihelion28 November 2013[2]

Comet ISON, formally known as C/2012 S1, was a sungrazing comet discovered on 21 September 2012 by Vitali Nevski (Виталий Невский, Vitebsk, Belarus) and Artyom Novichonok (Артём Новичонок, Kondopoga, Russia).[4] The discovery was made using the 0.4-meter (16 in) reflector of the International Scientific Optical Network (ISON) near Kislovodsk, Russia.[1] Data processing was carried out by automated asteroid-discovery program CoLiTec.[5] Precovery images by the Mount Lemmon Survey from 28 December 2011 and by Pan-STARRS from 28 January 2012 were quickly located.[6] Follow-up observations were made on 22 September by a team from Remanzacco Observatory in Italy using the iTelescope network.[1][7] The discovery was announced by the Minor Planet Center on 24 September.[6] Observations by Swift in January 2013 suggested that Comet ISON's nucleus was around 5 kilometers (3 mi) in diameter.[8] Later estimates were that the nucleus was only about 2 kilometers (1 mi) in diameter.[9] Mars Reconnaissance Orbiter (MRO) observations suggested the nucleus was smaller than 0.8 kilometers (0.5 mi) in diameter.[10]

Shortly after Comet ISON's discovery, the media reported that it might become brighter than the full moon. However, as events transpired, it never became bright enough to be readily visible to the naked eye. Furthermore, it broke apart as it passed close to the Sun. Reports on 28 November 2013 (the day of perihelion passage)[11][12] indicated that Comet ISON had partially or completely disintegrated due to the Sun's heat and tidal forces. However, later that day CIOC (NASA Comet ISON Observing Campaign) members discovered a coma-like feature, suggesting a small fragment of it may have survived perihelion.[11][12][13][14][15] On 29 November 2013, the coma dimmed to an apparent magnitude of 5.[16] By the end of 30 November 2013, the coma had further faded to below naked-eye visibility at magnitude 7.[17] On 1 December, the coma continued to fade even further as it finished traversing the Solar and Heliospheric Observatory's view.[18][19] On 2 December 2013, the CIOC announced that Comet ISON had fully disintegrated.[20][21] The Hubble Space Telescope failed to detect fragments of ISON on 18 December 2013.[22] On 8 May 2014, a detailed examination of the disintegration was published, suggesting that the comet fully disintegrated hours before perihelion.[23]

On 11 August 2014, astronomers released studies, using the Atacama Large Millimeter/Submillimeter Array (ALMA) for the first time, that detailed the distribution of HCN, HNC, H2CO, and dust inside the comae of comets C/2012 F6 (Lemmon) and C/2012 S1 (ISON).[24][25]


During routine observations on 21 November 2012, Vitali Nevski and Artyom Novichonok monitored areas of Gemini and Cancer after their observations were delayed by clouded weather for much of the night. The team used ISON's 0.4-meter (16 in) reflector near Kislovodsk, Russia and CCD imaging to carry out their observations. Shortly after their session, Nevski processed data using CoLiTec, an automated asteroid discovery software program. In analysis he noted an unusually bright object with slow apparent movement, indicating a position outside the orbit of Jupiter based on the use of four 100-second CCD exposures.[26][27] At the time of discovery, the object's apparent magnitude ranged from 19.1 to as bright as 18.8.[note 1][28]

The group reported their discovery to the Central Bureau for Astronomical Telegrams as an asteroidal object, which was subsequently forwarded to the Minor Planet Center. However, the group later reported that the object had a cometary appearance with a coma approximately 8 arcseconds across.[27] The object's position and cometary appearance was confirmed by several other unaffiliated observers, and as such the comet was named ISON, after the international observational project and in accordance with International Astronomical Union naming guidelines.[26][27] Comet ISON was precovered in analysis of Mount Lemmon Observatory imagery by G.V. Williams and Pan-STARRS imagery in Haleakalā. Precovery images from Mount Lemmon were first taken on 28 December 2011 and indicated that the comet had an estimated apparent magnitude ranging from 19.5 to 19.9. Images from Pan-STARRS were taken on 28 January 2012 and in those images the comet had an estimated apparent magnitude ranging from 19.8 to 20.6.[26]


Comet ISON came to perihelion (closest approach to the Sun) on 28 November 2013 at a distance of 0.0124 AU (1,860,000 km; 1,150,000 mi) from the center point of the Sun.[2] Accounting for the solar radius of 695,500 km (432,200 mi), Comet ISON passed approximately 1,165,000 km (724,000 mi) above the Sun's surface.[29] Its trajectory appeared to be hyperbolic, which suggested that it was a dynamically new comet coming freshly from the Oort cloud.[30][31] Near perihelion, a generic heliocentric two-body solution to the orbit suggests that the orbital period was around 400,000 years.[32] But for objects at such high eccentricity, the Sun's barycentric coordinates are more stable than heliocentric coordinates.[33] The orbit of a long-period comet is properly obtained when the osculating orbit is computed at an epoch after leaving the planetary region and is calculated with respect to the center of mass of the Solar System. Using JPL Horizons, the barycentric orbital elements for epoch 1 January 2050 generate a hyperbolic solution.[3] On its closest approach, Comet ISON passed about 0.07248 AU (10,843,000 km; 6,737,000 mi) from Mars on 1 October 2013, and the remnants of Comet ISON passed about 0.43 AU (64,000,000 km; 40,000,000 mi) from Earth on 26 December 2013.[34]

Shortly after its discovery, similarities between the orbital elements of Comet ISON and the Great Comet of 1680 led to speculation that there might be a connection between them.[35] Further observations of ISON, however, showed that the two comets are not related.[36]

Earth passed near the orbit of Comet ISON on 14–15 January 2014, at which time micron-sized dust particles blown by the Sun's radiation may cause a meteor shower or noctilucent clouds;[37][38] however, both events are unlikely. Because Earth only passes near Comet ISON's orbit, not through the tail, the chances that a meteor shower will occur are slim.[39] In addition, meteor showers from long-period comets that make just one pass into the inner solar system are very rare, if ever recorded.[40] The possibility that small particles left behind on the orbital path—almost one hundred days after the nucleus has passed—could form noctilucent clouds is also slim. No such events are known to have taken place in the past under similar circumstances.[40]

Position of comet remnants on 11 December 2013
Visualization of the orbit of comet ISON as it moved into the inner Solar System in 2013

Brightness, observations, and visibility[edit]

The path of Comet ISON from December 2012 through October 2013 as it passed through Gemini, Cancer, and Leo

At the time of its discovery, Comet ISON's apparent magnitude was approximately 18.8, far too dim to be seen with the naked eye, but bright enough to be imaged by amateurs with large telescopes.[41][42] It then followed the pattern of most comets and increased gradually in brightness on approach to the Sun.

At least a dozen spacecraft imaged Comet ISON.[21] It was first imaged by the Swift and Deep Impact spacecraft in January and February 2013, and shown to be active with an extended tail. In April and May 2013 the Hubble Space Telescope (HST) measured Comet ISON's size, and the color, extent, and polarization of its emitted dust. The Spitzer Space Telescope (SST) observed Comet ISON on 13 June and estimated carbon dioxide outgassing at about 1 million kilograms (2.2 million pounds) per day.[43] From 5 June to 29 August 2013, Comet ISON had an elongation less than 30 degrees from the Sun.[44] No obvious rotational variability was detected by either Deep Impact, HST, or Spitzer. Amateur astronomer Bruce Gary recovered it on 12 August 2013 when it was 6 degrees above the horizon and 19 degrees from the Sun.[45] Due to it brightening more slowly than predicted, Comet ISON only became visible through small telescopes during early October 2013.[46]

STEREO-B COR2 image of Comet ISON re-emerging ~7 hours after perihelion

On 1 October 2013, Comet ISON passed within 0.07 AU (10,000,000 km; 6,500,000 mi) of Mars. Between 29 September and 2 October, the Mars Reconnaissance Orbiter (MRO) detected Comet ISON.[47] The twin STEREO spacecraft began detecting Comet ISON in the second week of October.[48] October 2013 images of Comet ISON displayed a greenish tint, probably attributable to the release of cyanogen and diatomic carbon.[49] On 31 October 2013, Comet ISON was detected with 10×50 binoculars.[50]

On 14 November 2013, Comet ISON was reported to be visible to the naked eye by experienced observers located at dark sites.[51] It had an appearance similar to comet C/2013 R1 that is also visible to the naked eye. Comet ISON was not expected to reach the naked-eye magnitude of 6 until mid-November,[44][52] and was not expected to be observable by the general public until it brightened to about magnitude 4.[46] On 17–18 November, when Comet ISON was brighter and much closer to the morning twilight, it passed the bright star Spica in the constellation Virgo.[53] But due to the full moon and glow of twilight, Comet ISON had not become bright enough to be seen without optical aid by the general public. On 22 November, it started to drop below Mercury in the bright twilight.[54] SOHO started to view it on 27 November, first with the LASCO coronograph.[48][55] On 27 November ISON brightened to magnitude −2[note 2][56] and passed Delta Scorpii.[57] Around the time it reached perihelion on 28 November, it might have become extremely bright if it had remained fully intact. However, predicting the brightness of a comet is difficult, especially one that passes so close to the Sun and is affected by the forward scattering of light. Originally, media sources predicted that it might become brighter than the full moon,[30][31] but based on more recent observations, it was only expected to reach around apparent magnitude −3 to −5, about the same brightness as Venus.[52][58] In comparison, the brightest comet since 1935 was Comet Ikeya–Seki in 1965 at magnitude −10, which was much brighter than Venus.[59] On 29 November 2013, Comet ISON had dimmed to magnitude 5 in the LASCO images.[16] By the end of 30 November 2013, it had further faded to below naked-eye visibility at magnitude 7.[17]

Comet ISON, imaged by the Hubble Space Telescope on 10 April 2013—near Jupiter's orbit;[60] also, enhanced (coma model ratio) version

In a February 2013 study, 1,897 observations were used to create a light curve. The resulting plot showed Comet ISON increasing its brightness relatively quickly at R+4.35.[Unit?][61] If this had continued to perihelion, it would have reached magnitude −17, brighter than the full moon. It had since exhibited a "slowdown event", however, similar to the ones exhibited by many other Oort cloud comets, among them C/2011 L4. Therefore, Comet ISON's brightness increased less quickly than predicted and it did not become as bright as expected. Further observations suggested that, even if it had remained intact, it might only brighten to about magnitude −6.[58] It had been determined that it was a "baby comet" (i.e. an object with a photometric age less than four comet years).[61] The temperature at perihelion had been calculated to reach 2,700 °C (4,890 °F), sufficient to melt iron. Additionally, it was within the Roche limit, meaning it might disintegrate due to the Sun's gravity.

Comet ISON was expected to be brightest around the time it was closest to the Sun; but because it was less than 1° from the Sun at its closest, it would have been difficult to see against the Sun's glare.[62] Comet ISON would have been well placed for observers in the northern hemisphere during mid to late December 2013.[63] If it had survived its perihelion passage fully intact, it might have remained visible to the naked eye until January 2014.[30][42] As Comet ISON moved north on the celestial sphere it would have passed within two degrees of Polaris on 8 January.[42]


Comet ISON seen from the Mount Lemmon SkyCenter on 8 October 2013, as it passes through the constellation of Leo
For more details on this topic, see Naming of comets.

Comet ISON's formal designation was C/2012 S1.[note 3][64] It was named "ISON" after the organization where its discovery was made, the Russia-based International Scientific Optical Network. The initial report of the object to the Central Bureau for Astronomical Telegrams identified the object as an asteroid, and it was listed on the Near Earth Objects Confirmation Page. Follow-up observations by independent teams were the first to report cometary features. Therefore, under the International Astronomical Union's comet-naming guidelines, Comet ISON was named after the team that discovered it, rather than the individual discoverers.[65]

Media coverage[edit]

After it was discovered in 2012, some media sources called Comet ISON the "Comet of the Century" and speculated that it might outshine the full moon.[66] An Astronomy Now columnist wrote in September 2012 that "if predictions hold true then Comet ISON will certainly be one of the greatest comets in human history."[30] As recently as October 2013, a Daily Mail columnist described Comet ISON as "the Comet of the Century" and said it was "hoped to be 15 times brighter than the Moon."[67]

Astronomer Karl Battams criticized the media's suggestion that Comet ISON would be 'brighter than the full moon', saying that members of the Comet ISON Observing Campaign did not foresee ISON becoming that bright.[68]

Comet ISON has been compared to Comet Kohoutek, seen in 1973–4, another highly-anticipated Oort cloud comet that peaked early and fizzled out.[69][70]


  1. ^ Astronomical magnitudes decrease as brightness increases, from large positive values, through zero, to negative values for very bright objects.
  2. ^ Astronomical magnitudes decrease as brightness increases, from large positive values, through zero, to negative values for very bright objects.
  3. ^ The "C" indicates that it was non-periodic, followed by the year of discovery. The "S" represents the half-month of discovery—in the case of C/2012 S1, the second half of September—and the number "1" shows that this was the first comet found in that half month.


  1. ^ a b c Guido, Ernesto; Sostero, Giovanni; Howes, Nick (24 September 2012). "New Comet: C/2012 S1 (ISON)". Associazione Friulana di Astronomia e Meteorologia. Retrieved 24 September 2012. 
  2. ^ a b c d e f "MPEC 2013-W16 : COMET C/2012 S1 (ISON)". IAU Minor Planet Center. 26 November 2013. Retrieved 27 November 2013. 
  3. ^ a b c Horizons output. "Barycentric Osculating Orbital Elements for Comet C/2012 S1 (ISON)". NASA. Retrieved 25 November 2012.  (Solution using the Solar System Barycenter and barycentric coordinates. Select Ephemeris Type:Elements and Center:@0)
  4. ^ Trigo-Rodríguez, J. M.; Meech, K. J.; Rodriguez, D.; Sánchez, A.; Lacruz, J.; Riesen, T. E. (2013). "Post-discovery Photometric Follow-up of Sungrazing Comet C/2012 S1 ISON". 44th Lunar and Planetary Science Conference. 18–22 March 2013. The Woodlands, Texas. #1576. 
  5. ^ "Open the Great Comet Comet C/2012 S1 (ISON)". 12 October 2012. Retrieved 11 September 2013. 
  6. ^ a b "MPEC 2012-S63: Comet C/2012 S1 (ISON)". IAU Minor Planet Center. 24 September 2012. CK12S010. Retrieved 24 September 2012. 
  7. ^ Atkinson, Nancy (25 September 2012). "New 'Sun-Skirting' Comet Could Provide Dazzling Display in 2013". Universe Today. Retrieved 28 September 2012. 
  8. ^ Reddy, Francis (29 March 2013). "NASA's Swift Sizes Up Comet ISON". Retrieved 23 April 2013. 
  9. ^ Plait, Phil (21 November 2013). "12 Cool Facts about Comet ISON". Slate (magazine). Retrieved 28 November 2013. 
  10. ^ Fox, Karen C. (10 December 2013). "Fire vs. Ice: The Science of ISON at Perihelion". Retrieved 11 December 2013. 
  11. ^ a b Battams, Karl (28 November 2013). "Schrödinger's Comet". CIOC. Retrieved 28 November 2013. 
  12. ^ a b MacRobert, Alan (28 November 2013). "Latest Updates on Comet ISON". Sky & Telescope. Retrieved 28 November 2013. 
  13. ^ Battams, Karl (28 November 2013). "Alright we're calling it...". 
  14. ^ Plait, Phil (28 November 2013). "ISON Update for 22:00 UTC Nov. 28". Slate (magazine). Retrieved 28 November 2013. 
  15. ^ Chang, Kenneth (29 November 2013). "Comet ISON, Presumed Dead, Shows New Life". The New York Times. Retrieved 29 November 2013. 
  16. ^ a b Battams, Karl (29 November 2013). "In ISON's Wake, a Trail of Questions". CIOC. Retrieved 30 November 2013. 
  17. ^ a b Battams, Karl (30 November 2013). "If #ISON had a nucleus...". 
  18. ^ Boyle, Alan (30 November 2013). "Comet ISON's leftovers fade away, right before a satellite's eyes". NBC News. Retrieved 9 December 2013. 
  19. ^ "comet ISON's current status". NASA Comet ISON Observing Campaign. 30 November 2013. Retrieved 1 December 2013. 
  20. ^ Battams, Karl (2 December 2013). "In Memoriam". CIOC. Retrieved 2 December 2013. 
  21. ^ a b Fox, Karen C. (2 December 2013). "NASA Investigating the Life of Comet ISON". Retrieved 2 December 2013. 
  22. ^ Levay, Zolt (20 December 2013). "BREAKING NEWS: Comet ISON Is Still Dead". Retrieved 21 December 2013. 
  23. ^ Zdenek, Sekanina; Kracht, Rainer (2014). "Disintegration of Comet C/2012 S1 (ISON) Shortly Before Perihelion: Evidence from Independent Data Sets". arXiv:1404.5968v4 [astro-ph.EP]. Bibcode 2014arXiv1404.5968S.
  24. ^ Zubritsky, Elizabeth; Neal-Jones, Nancy (11 August 2014). "RELEASE 14-038 - NASA’s 3-D Study of Comets Reveals Chemical Factory at Work". NASA. Retrieved 12 August 2014. 
  25. ^ Cordiner, M.A. et al. (11 August 2014). "Mapping the Release of Volatiles in the Inner Comae of Comets C/2012 F6 (Lemmon) and C/2012 S1 (ISON) Using the Atacama Large Millimeter/Submillimeter Array". The Astrophysical Journal 792 (1). doi:10.1088/2041-8205/792/1/L2. Retrieved 12 August 2014. 
  26. ^ a b c Kronk, Gary W. "C/2012 S1 (ISON)". Retrieved 12 December 2013. 
  27. ^ a b c "Comet C/2012 S1 (ISON)". Cometary Science Archive. Central Bureau for Astronomical Telegrams, International Astronomical Union. Retrieved 12 December 2013. 
  28. ^ "Comet C/2012 S1 (ISON)". Central Bureau Electronic Telegrams. Central Bureau for Astronomical Telegrams, International Astronomical Union. 24 September 2012. Electronic Telegram No. 3258. 
  29. ^ Pickup, Alan (13 October 2013). "Starwatch: The brightening of ISON". The Guardian. Retrieved 16 October 2013. 
  30. ^ a b c d Grego, Peter (25 September 2012). "New comet might blaze brighter than the full Moon". Astronomy Now. Retrieved 28 September 2012. 
  31. ^ a b Hecht, Jeff (25 September 2012). "Newly spotted comet may outshine the full moon". New Scientist. Retrieved 28 September 2012. 
  32. ^ Plait, Phil (25 November 2013). "Is Comet ISON Heading for Interstellar Space?". Slate (magazine). Retrieved 25 November 2013. 
  33. ^ Kaib, Nathan A.; Becker, Andrew C.; Jones, R. Lynne; Puckett, Andrew W.; Bizyaev, Dmitry; Dilday, Benjamin; Frieman, Joshua A.; Oravetz, Daniel J.; Pan, Kaike; Quinn, Thomas; Schneider, Donald P.; Watters, Shannon (2009). "2006 SQ372: A Likely Long-Period Comet from the Inner Oort Cloud". The Astrophysical Journal 695 (1): 268–275. arXiv:0901.1690. Bibcode:2009ApJ...695..268K. doi:10.1088/0004-637X/695/1/268. 
  34. ^ "JPL Close-Approach Data: C/2012 S1 (ISON)". 15 November 2012. Retrieved 25 November 2012. 
  35. ^ Bortle, J. (24 September 2012). "Re: C/2012 S1 (ISON), Some Further Thoughts". comets-ml mailing list. Yahoo! Groups. Retrieved 5 October 2012.
  36. ^ "Let History Be Our Guide?". Comet ISON Observing Campaign. 22 July 2013. Retrieved 2 August 2013. 
  37. ^ King, Bob (19 October 2012). "Wassup with comets Hergenrother, L4 PanSTARRS and S1 ISON". Astro Bob. Retrieved 1 January 2013. 
  38. ^ Phillips, Tony (19 April 2013). "Comet ISON Meteor Shower". Archived from the original on 21 September 2013. Retrieved 23 April 2013. 
  39. ^ Sekhar, A.; Asher, D. J. (11 October 2013). "Meteor showers on Earth from sungrazing comets". Monthly Notices of the Royal Astronomical Society. arXiv:1310.3171. Bibcode:2013arXiv1310.3171S. 
  40. ^ a b "Comet ISON - Latest Updates, FAQ and Viewing Guide". Retrieved 22 July 2013. 
  41. ^ Rao, Joe (25 September 2012). "Newfound Comet Could Look Spectacular in 2013". Retrieved 28 September 2012. 
  42. ^ a b c Bakich, Michael E. (25 September 2012). "Comet ISON will light up the sky". Astronomy. Retrieved 28 September 2012. 
  43. ^ "NASA's Spitzer Observes Gas Emission From Comet ISON". NASA. 23 July 2013. Retrieved 1 August 2013. 
  44. ^ a b "Elements and Ephemeris for C/2012 S1 (ISON)". IAU Minor Planet Center. Retrieved 23 April 2013. 
  45. ^ Gary, Bruce (12 August 2013). "Comet ISON Observations by an Amateur Observer: Recovery Observation". Retrieved 4 October 2013. 
  46. ^ a b Dickinson, David (23 September 2013). "Comet ISON: A Viewing Guide from Now to Perihelion". Universe Today. Retrieved 4 October 2013. 
  47. ^ Delamere, Alan; McEwen, Alfred. "First HiRISE Images of Comet ISON". University of Arizona (HiRISE). Retrieved 2 October 2013. 
  48. ^ a b "Anticipated STEREO observations of Comet ISON". NASA STEREO Science Center. 27 February 2013. Retrieved 28 April 2013. 
  49. ^ Atkinson, Nancy (24 October 2013). "Why Is Comet ISON Green?". Universe Today. Retrieved 31 October 2013. 
  50. ^ González, Juan José (31 October 2013). "C/2012 S1, C/2012 X1, C/2013 R1, 2P". Yahoo! Groups: Comet Observations. Retrieved 31 October 2013.  (just a few days ago we saw the first reports of ground-based observers being able to view ISON through binoculars)
  51. ^ Flanders, Tony (14 November 2013). "Comet ISON Comes to Life!". Sky & Telescope. Retrieved 14 November 2013. 
  52. ^ a b Bortle, John (13 June 2013). "Comet ISON approaches". Sky & Telescope. Retrieved 14 June 2013. 
  53. ^ Atkinson, Nancy (15 November 2013). "Whoa. Take a Look at Comet ISON Now". Universe Today. Retrieved 18 November 2013. 
  54. ^ King, Bob (11 November 2013). "Mercury enters early morning comet traffic jam". Astro Bob. Retrieved 18 November 2013. 
  55. ^ "LASCO image dated 27 November 16:08". 27 November 2013. 
  56. ^ Battams, Karl (27 November 2013). "Very quick update". CIOC. Retrieved 28 November 2013. 
  57. ^ Musgrave, Ian (28 November 2013). "Is Comet C/2012 S1 ISON on Track?". Astroblog. Retrieved 28 November 2013. 
  58. ^ a b "ISON Updates from the CIOC". Sungrazing Comets. U.S. Navy. Retrieved 21 July 2013. 
  59. ^ "Brightest comets seen since 1935". International Comet Quarterly. Retrieved 28 September 2012. 
  60. ^ "Hubble captures Comet ISON". 24 April 2013. Retrieved 30 April 2013. 
  61. ^ a b Ferrín, Ignacio (2013). "Secular Light Curves of Comets C/2011 L4 Panstarrs and C/2012 S1 ISON Compared to 1P/Halley". arXiv:1302.4621v1 [astro-ph].
  62. ^ Beatty, Kelly (27 September 2012). "A "Dream Comet" Heading Our Way?". Sky & Telescope. Retrieved 28 September 2012. 
  63. ^ Dickinson, David (25 September 2012). "Will we have a Christmas comet in 2013?". Retrieved 30 September 2012. 
  64. ^ "Comet ISON - Latest Updates, FAQ and Viewing Guide". Retrieved 18 June 2013. 
  65. ^ "Comet C/2012 S1 (ISON)". Harvard University Cometary Science Archive. 2012. Retrieved 22 November 2013. 
  66. ^ Chang, Kenneth (27 November 2013). "Comet Nears Sun, Offering Planetary Clues". The New York Times. Retrieved 27 November 2013. 
  67. ^ Griffiths, Sarah (18 October 2013). "Dazzling 'comet of the century' is still intact! Icy ball 15 times brighter than the moon might be visible in December - IF it survives". Daily Mail. Retrieved 20 October 2013. 
  68. ^ Atkinson, Nancy (30 July 2013). "Rumors of Comet ISON 'Fizzling' May be Greatly Exaggerated". Universe Today. Retrieved 20 October 2013. 
  69. ^ Frederick N., Rasmussen (5 December 2013). "Back Story: Comet Kohoutek was another flameout". The Baltimore Sun. Retrieved 3 February 2014. 
  70. ^ Powell, Cory S. (5 January 2014). "10 Lessons from the “Comet of the Century”". Discover. Retrieved 3 February 2014. 

External links[edit]

Minor Planet Electronic Circulars