Rotational variation of daughter species production rates in Comet 103P/Hartley: Implications for the progeny of daughter species and the degree of chemical heterogeneity

Rotational variation of daughter species production rates in Comet 103P/Hartley: Implications for the progeny of daughter species and the degree of chemical heterogeneity

•We report analysis of high spectral resolution optical observations of comet 103P/Hartley during it’s Fall 2010 apparition.•We determine that the daughter species exhibit a high degree of variability in their production rates with rotational phase.•We also infer changes in the mixing ratios C2/CN a...

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Veröffentlicht in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2014-03, Vol.231, p.193-205
Hauptverfasser: McKay, Adam J., Chanover, Nancy J., DiSanti, Michael A., Morgenthaler, Jeffrey P., Cochran, Anita L., Harris, Walter M., Russo, Neil Dello
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Sprache:eng
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Comets
Comets, coma
Comets, composition
Grains
Heterogeneity
Mixing ratios
Parents
Progeny
Rotational
Spectra
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container_issue
container_start_page 193
container_title Icarus (New York, N.Y. 1962)
container_volume 231
creator McKay, Adam J.
Chanover, Nancy J.
DiSanti, Michael A.
Morgenthaler, Jeffrey P.
Cochran, Anita L.
Harris, Walter M.
Russo, Neil Dello
description •We report analysis of high spectral resolution optical observations of comet 103P/Hartley during it’s Fall 2010 apparition.•We determine that the daughter species exhibit a high degree of variability in their production rates with rotational phase.•We also infer changes in the mixing ratios C2/CN and CN/H2O.•We interpret the variable mixing ratios as indicating whether a given species is released from a nucleus or extended source.•We find that an additional source of C2 besides C2H2 is needed to account for the observed C2 abundance in 103P. We present analysis of high spectral resolution optical spectra of Comet 103P/Hartley taken during its Fall 2010 apparition. These spectra include transitions belonging to CN, C2, CH, NH2, and OI. We measure production rates and mixing ratios from these spectra. We find evidence for large changes in production rates (factors of a few) over the course of a nucleus rotation, in agreement with other measurements. We also measure variability with rotational phase in the CN/H2O and C2/CN ratios, which has not been previously reported for any comet. There may also be variability in the NH2/H2O ratio with rotational phase, but this trend is not as clear as for CN/H2O. We interpret the changing mixing ratios as due to H2O and C2 being released primarily from the icy grain halo, while the CN parent molecule comes directly from the nucleus. There is evidence that the CH/CN ratio is higher pre-perihelion than post-perihelion. We conclude that the observed CN and NH2 abundances are consistent with HCN and NH3 being the dominant parent molecules for these species. The C2 and CH abundances are higher than those of candidate parent molecules (C2H2 and CH4 respectively), so there must be another source for these molecules in 103P’s coma. Carbonaceous dust grains could serve as this source.
doi_str_mv 10.1016/j.icarus.2013.11.029
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We present analysis of high spectral resolution optical spectra of Comet 103P/Hartley taken during its Fall 2010 apparition. These spectra include transitions belonging to CN, C2, CH, NH2, and OI. We measure production rates and mixing ratios from these spectra. We find evidence for large changes in production rates (factors of a few) over the course of a nucleus rotation, in agreement with other measurements. We also measure variability with rotational phase in the CN/H2O and C2/CN ratios, which has not been previously reported for any comet. There may also be variability in the NH2/H2O ratio with rotational phase, but this trend is not as clear as for CN/H2O. We interpret the changing mixing ratios as due to H2O and C2 being released primarily from the icy grain halo, while the CN parent molecule comes directly from the nucleus. There is evidence that the CH/CN ratio is higher pre-perihelion than post-perihelion. 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subjects Comets
Comets, coma
Comets, composition
Grains
Heterogeneity
Mixing ratios
Parents
Progeny
Rotational
Spectra
title Rotational variation of daughter species production rates in Comet 103P/Hartley: Implications for the progeny of daughter species and the degree of chemical heterogeneity
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