Rotation-stimulated structures in the CN and C3 comae of comet 103P/Hartley 2 close to the EPOXI encounter

Context. In late 2010, a Jupiter family comet 103P/Hartley 2 was the subject of an intensive world-wide investigation. On UT October 20.7, the comet approached the Earth within only 0.12 AU, and on UT November 4.6 it was visited by the NASA EPOXI spacecraft. Aims. We joined this international effort...

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Published inAstronomy and astrophysics (Berlin) Vol. 543
Main Authors Waniak, W., Borisov, G., Drahus, M., Bonev, T.
Format Journal Article
LanguageEnglish
Published Les Ulis EDP Sciences 01.07.2012
Subjects
Astronomy
comets: individual: 103P/Hartley 2
Earth, ocean, space
Exact sciences and technology
techniques: imaging spectroscopy
techniques: photometric
Comets
Spectroscopy
Image processing
techniques: photometric
Variability
Spin orientation
Periodicity
Time series
Jupiter planet
Image method
Hydrogen cyanides
Astronomical observatories
Kinematics
Cometary coma
Jets
comets: individual: 103P/Hartley 2
Excitation
Photometry
techniques: imaging spectroscopy
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Summary:Context. In late 2010, a Jupiter family comet 103P/Hartley 2 was the subject of an intensive world-wide investigation. On UT October 20.7, the comet approached the Earth within only 0.12 AU, and on UT November 4.6 it was visited by the NASA EPOXI spacecraft. Aims. We joined this international effort and organized a ground-based observing campaign with three key goals to: (1) measure the parameters of the nucleus rotation in a time series of CN; (2) investigate the compositional structure of the coma by comparing the CN images with nightly snapshots of C3; and (3) investigate the photochemical relation of CN to HCN, using the HCN data collected nearly simultaneously with our images. Methods. The images were obtained through narrowband filters using the two-meter telescope of the Rozhen National Astronomical Observatory. They were taken over four nights about the moment of the EPOXI encounter. Image processing methods and periodicity analysis techniques were used to identify transient coma structures and investigate their repeatability and kinematics. Results. We observe shells, arc-, jet- and spiral-like patterns that are very similar for the CN and C3 comae. The CN features expanded outwards with the sky-plane projected velocities of between 0.1 to 0.3 km s-1. A corkscrew structure, observed on November 6, evolved with a much higher velocity of 0.66 km s-1. The photometry of the inner coma of CN shows variability with a period of 18.32 ± 0.30 h (valid for the middle moment of our run, UT 2010 Nov 5.0835), which we attribute to the nucleus rotation. This result is fully consistent with independent determinations around the same time by other teams. The pattern of repeatability is, however, imperfect, which is understendable given the suggested excitation of the rotation state, and the variability detected in CN correlates well with the cyclic changes in HCN, but only in the active phases. The identified coma structures, along with the snapshot of the nucleus orientation obtained by EPOXI, enable us to estimate the spin axis orientation. We obtain RA = 122°, Dec = +16° (epoch J2000.0), neglecting at this point the rotational excitation.
Bibliography:istex:1AD2B2F0D057FBB6722BCD0B56CE68CD9431DA00
dkey:10.1051/0004-6361/201118192
bibcode:2012A%26A...543A..32W
e-mail: waclaw.waniak@uj.edu.pl
Based on data collected with two-meter RCC telescope at Rozhen National Astronomical Observatory.
publisher-ID:aa18192-11
ark:/67375/80W-MQX600C8-0
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/201118192