Radio observations of Jupiter-family comets

Crovisier, J.; Biver, Nicolás; Bockelée‐Morvan, Dominique; Colom, P.

doi:10.1016/j.pss.2008.08.019

Cited by 37 publications

(18 citation statements)

References 87 publications

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“…understood to come from the Oort Cloud reservoir, the longperiod comets (LPCs) ,and the intermediate-period Halley-type comets (HTCs) that are bright enough to be observed by IR and radio; Jupiter-family comets (JFCs), with fainter gas and dust production, have only rarely been investigated by radio and IR observations (Crovisier et al 2009). 1P/Halley is the first HTC to date for which there exists a detailed volatile composition measurement, obtained in situ by mass spectrometry during the flyby of the European Space Agency's Giotto spacecraft in 1986 (Eberhardt 1999), recently complemented with remote-sensing observations (Rubin et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Inventory of the volatiles on comet 67P/Churyumov-Gerasimenko from Rosetta/ROSINA

Roy

Altwegg

Balsiger

et al. 2015

A&A

292

114

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Context. The ESA Rosetta spacecraft (S/C) is tracking comet 67P/Churyumov-Gerasimenko in close vicinity. This prolonged encounter enables studying the evolution of the volatile coma composition. Aims. Our work aims at comparing the diversity of the coma of 67P/Churyumov-Gerasimenko at large heliocentric distance to study the evolution of the comet during its passage around the Sun and at trying to classify it relative to other comets. Methods. We used the Double Focussing Mass Spectrometer (DFMS) of the ROSINA experiment on ESA's Rosetta mission to determine relative abundances of major and minor volatile species. This study is restricted to species that have previously been detected elsewhere. Results. We detect almost all species currently known to be present in cometary coma with ROSINA DFMS. As DFMS measured the composition locally, we cannot derive a global abundance, but we compare measurements from the summer and the winter hemisphere with known abundances from other comets. Differences between relative abundances between summer and winter hemispheres are large, which points to a possible evolution of the cometary surface. This comet appears to be very rich in CO 2 and ethane. Heavy oxygenated compounds such as ethylene glycol are underabundant at 3 AU, probably due to their high sublimation temperatures, but nevertheless, their presence proves that Kuiper belt comets also contain complex organic molecules.

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Section: Introductionmentioning

confidence: 99%

Inventory of the volatiles on comet 67P/Churyumov-Gerasimenko from Rosetta/ROSINA

Roy

Altwegg

Balsiger

et al. 2015

A&A

292

114

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“…Dynamical models suggest that comets formed in a range of environments in the protoplanetary disk and were then ejected into two main reservoirs, the Kuiper belt and the Oort Cloud, where they are currently stored (Gomes et al 2005). Surveys at different wavelengths, in the radio domain (Crovisier et al 2009), in the infrared (Bockelée-Morvan et al 2004), and in the optical (A'Hearn et al 1995;Fink 2009) revealed chemical diversity among comets. At this time the larger optical database contains about 150 comets and reveals as many as ten compositional groupings, some of them possibly related with the comets' place of formation (Schleicher et al 2007).…”

Section: Introductionmentioning

confidence: 99%

TRAPPIST monitoring of comet C/2012 F6 (Lemmon)

Opitom

Jehin

Manfroid

et al. 2015

A&A

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We report the results of the long-term narrowband photometry and imaging monitoring of comet C/2012 F6 (Lemmon) with the robotic TRAPPIST telescope (La Silla Observatory). Observations covered 52 nights pre-and post-perihelion between December 11, 2012, and June 11, 2013 (perihelion: 24 March, 2013. We followed the evolution of the OH, NH, CN, C 3 , and C 2 production rates computed with the Haser model as well as the evolution of the A(θ) f ρ parameter as a proxy for the dust production. All five gas species display similar slopes for the heliocentric dependence. An asymmetry about perihelion is observed, the rate of brightening being steeper than the rate of fading. The chemical composition of the comet's coma changes slightly along the orbit: the relative abundance of C 2 to CN increases with the heliocentric distance (r) below −1.4 au and decreases with r beyond 1.4 au while the C 3 -to-CN ratio is constant during our observations. The behavior of the dust is different from that of the gas, the slope of the heliocentric dependence becoming steeper in early February, correlated to a change in the visual lightcurve slope. However, the dust color does not vary during the observations. The application of several enhancement techniques on the images revealed structures in the CN, C 3 , and C 2 images. These features imply the existence of one or several active zone(s) on the comet nucleus. The shape of the structures is similar in these three filters and changes from a roughly hourglass shape in December and January to a corkscrew shape in February and March. The structures in the continuum filters (sampling the dust) are not correlated to those observed for the gas. During several full nights in February, we observed changes in the CN and C 2 structures that repeated periodically because of the nucleus rotation, our derived rotational period being of 9.52 ± 0.05 h.

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“…The material ejected during the 2007 outburst included gas species, dust grains, and macroscopic fragments (e.g., Dello Russo et al 2008;Crovisier et al 2009;Yang et al 2009;Reach et al 2010;Stevenson et al 2010). Much of the smaller dust expanded in an almost spherical shell around the nucleus, while larger dust grains were observed to separate as a "blob" at a slower rate of ∼120-135 m s −1 (e.g., Montalto et al 2008;Lin et al 2009;Hsieh et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Lingering Grains of Truth Around Comet 17p/Holmes

Stevenson

Bauer

Kramer

et al. 2014

ApJ

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Comet 17P/Holmes underwent a massive outburst in 2007 October, brightening by a factor of almost a million in under 48 hr. We used infrared images taken by the Wide-Field Infrared Survey Explorer mission to characterize the comet as it appeared at a heliocentric distance of 5.1 AU almost 3 yr after the outburst. The comet appeared to be active with a coma and dust trail along the orbital plane. We constrained the diameter, albedo, and beaming parameter of the nucleus to 4.135 ± 0.610 km, 0.03 ± 0.01, and 1.03 ± 0.21, respectively. The properties of the nucleus are consistent with those of other Jupiter family comets. The best-fit temperature of the coma was 134 ± 11 K, slightly higher than the blackbody temperature at that heliocentric distance. Using Finson-Probstein modeling, we found that the morphology of the trail was consistent with ejection during the 2007 outburst and was made up of dust grains between 250 μm and a few cm in radius. The trail mass was ∼1.2-5.3 × 10 10 kg.

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Radio observations of Jupiter-family comets

Cited by 37 publications

References 87 publications

Inventory of the volatiles on comet 67P/Churyumov-Gerasimenko from Rosetta/ROSINA

Inventory of the volatiles on comet 67P/Churyumov-Gerasimenko from Rosetta/ROSINA

TRAPPIST monitoring of comet C/2012 F6 (Lemmon)

Lingering Grains of Truth Around Comet 17p/Holmes

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