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Catalogue POP – Notice individuelle de publication

Marshall D. W., Hartogh Paul, Rezac Ladislav, Allmen Paul von, Biver Nicolas, Bockelée-Morvan Dominique, Crovisier Jacques, Encrenaz Pierre J., Gulkis Samuel, Hofstadter Mark D., Ip W., Jarchow Christopher, Lee S., Lellouch Emmanuel

Spatially resolved evolution of the local H2O production rates of comet 67P/Churyumov-Gerasimenko from the MIRO instrument on Rosetta

Astronomy and Astrophysics, 2017, vol. 603

Référence ADS : 2017A&A...603A..87M

Résumé :

<BR /> Aims: Using spectroscopic and continuum data measured by the MIRO instrument on board Rosetta of comet 67P/Churyumov-Gerasimenko, it is possible to derive and track the change in the water production rate, to learn how the outgassing evolves with heliocentric distance. The MIRO data are well suited to investigate the evolution of 67P, in unprecedented spatial and temporal detail. <BR /> Methods: To obtain estimates of the local effective Haser production rates we developed an efficient and reliable retrieval approach with precalculated lookup tables. We employed line area ratios (H<SUB>2</SUB><SUP>16</SUP>O/H<SUB>2</SUB><SUP>18</SUP>O) from pure nadir observations as the key variable, along with the Doppler shift velocity, and continuum temperature. This method was applied to the MIRO data from August 2014 until April 2016. Perihelion occurred on August 13, 2015 when the comet was 1.24 AU from the Sun. <BR /> Results: During the perihelion approach, the water production rates increased by an order of magnitude, and from the observations, the derived maximum for a single observation on August 29, 2015 is (1.42 ± 0.51) ×10<SUP>28</SUP>. Modeling the data indicates that there is an offset in the peak outgassing, occurring 34 ± 10 days after perihelion. During the pre-perihelion phase, the production rate changes with heliocentric distance as r<SUB>h</SUB><SUP>-3.8±0.2</SUP>; during post-perihelion, the dependence is r<SUB>h</SUB><SUP>-4.3±0.2</SUP>. The comet is calculated to have lost 0.12 ± 0.06 % of its mass during the perihelion passage, considering only water ice sublimation. Additionally, this method provides well sampled data to determine the spatial distribution of outgassing versus heliocentric distance. The time evolution is definitely not uniform across the surface. Pre- and post-perihelion, the surface temperature on the southern hemisphere changes rapidly, as does the sublimation rate with an exponent of -6. There is a strong latitudinal dependence on the r<SUB>h</SUB> exponent with significant variation between northern and southern hemispheres, and so the average over the comet surface may only be of limited importance. We present more detailed regional variation in the outgassing, demonstrating that the highest derived production rates originate from the Wosret, Neith and Bes regions during perihelion.

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