C/2014 Q2 (Lovejoy) Explained

C/2014 Q2 (Lovejoy)
Discoverer:Terry Lovejoy
0.2-m Schmidt (Q80)
Discovery Date:17 August 2014
Epoch:18 January 2015
Perihelion:1.29077 AU (q)
Eccentricity:0.99811
Period:~11000 years inbound (Barycentric solution for epoch 1950)
~8000 years outbound
(Barycentric solution for epoch 2050)
Inclination:80.301°
Last P:30 January 2015

C/2014 Q2 (Lovejoy) is a long-period comet discovered on 17 August 2014 by Terry Lovejoy using a 0.2m (00.7feet) Schmidt–Cassegrain telescope. It was discovered at apparent magnitude 15 in the southern constellation of Puppis. It is the fifth comet discovered by Terry Lovejoy. Its blue-green glow is the result of organic molecules (mostly Diatomic carbon) and water released by the comet fluorescing under the intense UV and optical light of the Sun as it passes through space.[1]

History

By December 2014, the comet had brightened to roughly magnitude 7.4, making it a small telescope and binoculars target. By mid-December, the comet was visible to the naked eye for experienced observers with dark skies and keen eyesight. On 28–29 December 2014, the comet passed 1/3° from globular cluster Messier 79. In January 2015, it brightened to roughly magnitude 4, and became one of the brightest comets located high in a dark sky since comet (Hale-Bopp) in 1997. On 7 January 2015, the comet passed 0.469AU from Earth. It crossed the celestial equator on 9 January 2015, becoming better seen from the Northern Hemisphere. The comet came to perihelion (closest approach to the Sun) on 30 January 2015, at a distance of 1.29sigfig=3NaNsigfig=3 from the Sun. At perihelion, its water production rate exceeded 20 metric tons per second.[2]

C/2014 Q2 originated from the Oort cloud,[2] but is not a dynamically new comet. Before entering the planetary region (epoch 1950), had an orbital period of about 11,000 years, with an aphelion about 995sigfig=3NaNsigfig=3 from the Sun. After leaving the planetary region (epoch 2050), it will have an orbital period of about 8,000 years, with aphelion of about 800 AU.

The comet was observed to release 21 different organic molecules in gas, including ethanol and glycolaldehyde, a simple sugar.[2] [3] The presence of organic molecules suggests that they are preserved materials synthesized in the outskirts of the solar nebula or at earlier stages of the Solar System formation.[2]

External links

Notes and References

  1. News: Comet Lovejoy, Because Holy Wow . Bad Astronomy . . Phil . Plait . 3 January 2015 . 24 October 2015. Phil Plait.
  2. Ethyl alcohol and sugar in comet C/2014 Q2 (Lovejoy) . . Biver . Nicolas . Bockelée-Morvan . Dominique. Dominique Bockelée-Morvan . Moreno . Raphaël . Crovisier . Jacques . Colom . Pierre . Lis . Dariusz C. . Sandqvist . Aage . Boissier . Jérémie . Despois . Didier . Milam . Stefanie . 5 . 1 . 9 . e1500863 . 23 October 2015 . 10.1126/sciadv.1500863. 26601319 . 1511.04999 . 2015SciA....1E0863B . 4646833 .
  3. News: Researchers Catch Comet Lovejoy Giving Away Alcohol . . Bill . Steigerwald . 23 October 2015 . 24 October 2015.