Subsurface properties and early activity of comet 67P/Churyumov-Gerasimenko

Gulkis, S.; Allen, Mark; Allmen, Paul von; Beaudin, G.; Biver, Nicolás; Bockelée‐Morvan, Dominique; Choukroun, Mathieu; Crovisier, J.; Davidsson, B.; Encrenaz, P.; Encrenaz, Thérèse; Frerking, M. A.; Hartogh, P.; Hofstadter, Mark; Ip, W.-H.; Janssen, M. A.; Jarchow, Christopher; Keihm, S.; Lee, Seungwon; Lellouch, E.; Leyrat, C.; Rezac, Ladislav; Schloerb, F. Peter; Spilker, Thomas R.

doi:10.1126/science.aaa0709

Cited by 247 publications

(273 citation statements)

References 14 publications

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“…Temperatures used in this study are lower than the surface temperatures reported by Capaccioni et al (2015) for measurements with the Rosetta-VIRTIS instrument. We assume the sublimation layer to be colder than the VIRTIS temperatures, which is consistent with their findings that the surface of 67P is almost free of ice and the significantly lower temperatures found by Gulkis et al (2015) below the surface. We further assume that the sublimating gas does not thermally accommodate to the top surface temperature while diffusing outward.…”

Section: Hydrodynamic Model (Bats-r-us)supporting

confidence: 89%

“…This leads to total production rates of Q total = 8.7 × 10 25 s −1 −1.1 × 10 26 s −1 , depending on the illumination conditions. This is slightly higher than the observed total production rate of 4×10 25 s −1 for H 2 O in August 2014 as reported by Gulkis et al (2015). We note that we estimate the total production rate of 67P which only gives an upper limit for the H 2 O production rate.…”

Section: Increase In Production Ratecontrasting

confidence: 62%

“…BATS-R-US produces these higher velocities on both the day and night side of the coma. The measured expansion velocity, reported by Gulkis et al (2015) of 0.68 km s −1 are somewhat lower than the BATS-R-US velocities computed for the day side and show better agreement with AMPS.…”

Section: Amps and Bats-r-us Comparisonmentioning

confidence: 54%

“…8 we can look at a direct comparison between the kinetic and hydrodynamic solutions in terms of number density, velocity, and pressure. The panels on the left hand side in both figures Gulkis et al (2015). Both methods produce asymmetric number density and velocity profiles with higher abundances and velocities on the hemisphere pointed towards the Sun.…”

Section: Amps and Bats-r-us Comparisonmentioning

confidence: 93%

“…It has been shown that comet 67P/Churyumov-Gerasimenko (67P) was active before Rosetta's rendezvous in August 2014 at a heliocentric distance of 3.75 AU as reported by Gulkis et al (2015). A major goal of the Rosetta mission is to find out how the gas release in comets works and how much of the surface area contributes to the observed activity.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of 3D kinetic and hydrodynamic models to ROSINA-COPS measurements of the neutral coma of 67P/Churyumov-Gerasimenko

Bieler

Altwegg

Balsiger

et al. 2015

A&A

106

113

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ABSTRACT67P/Churyumov-Gerasimenko (67P) is a Jupiter-family comet and the object of investigation of the European Space Agency mission Rosetta. This report presents the first full 3D simulation results of 67P's neutral gas coma. In this study we include results from a direct simulation Monte Carlo method, a hydrodynamic code, and a purely geometric calculation which computes the total illuminated surface area on the nucleus. All models include the triangulated 3D shape model of 67P as well as realistic illumination and shadowing conditions. The basic concept is the assumption that these illumination conditions on the nucleus are the main driver for the gas activity of the comet. As a consequence, the total production rate of 67P varies as a function of solar insolation. The best agreement between the model and the data is achieved when gas fluxes on the night side are in the range of 7% to 10% of the maximum flux, accounting for contributions from the most volatile components. To validate the output of our numerical simulations we compare the results of all three models to in situ gas number density measurements from the ROSINA COPS instrument. We are able to reproduce the overall features of these local neutral number density measurements of ROSINA COPS for the time period between early August 2014 and January 1 2015 with all three models. Some details in the measurements are not reproduced and warrant further investigation and refinement of the models. However, the overall assumption that illumination conditions on the nucleus are at least an important driver of the gas activity is validated by the models. According to our simulation results we find the total production rate of 67P to be constant between August and November 2014 with a value of about 1 × 10 26 molecules s −1 .

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Section: Hydrodynamic Model (Bats-r-us)supporting

confidence: 89%

Section: Increase In Production Ratecontrasting

confidence: 62%

Section: Amps and Bats-r-us Comparisonmentioning

confidence: 54%

Section: Amps and Bats-r-us Comparisonmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Comparison of 3D kinetic and hydrodynamic models to ROSINA-COPS measurements of the neutral coma of 67P/Churyumov-Gerasimenko

Bieler

Altwegg

Balsiger

et al. 2015

A&A

106

113

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The Rosetta Ion and Electron Sensor (IES) measurement of the development of pickup ions from comet 67P/Churyumov‐Gerasimenko

Goldstein

Burch

Mokashi

et al. 2015

Geophysical Research Letters

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The Rosetta Ion and Electron Sensor (IES) has been measuring solar wind ions intermittently since exiting from hibernation in May 2014. On 19 August, when Rosetta was ~80 km from the comet 67P/Churyumov‐Gerasimenko, which was ~3.5 AU from the Sun, IES began to see ions at its lowest energy range, ~4–10 eV. We identify these as ions created from neutral species emitted by the comet nucleus, photoionized by solar UV radiation in the neighborhood of the Rosetta spacecraft (S/C), and attracted by the small negative potential of the S/C resulting from the population of thermal electrons. Later, IES began to see higher‐energy ions that we identify as having been picked up and accelerated by the solar wind. IES continues to measure changes in the solar wind and the development of the pickup ion structure.

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Spatial distribution of low‐energy plasma around comet 67P/CG from Rosetta measurements

Edberg

Eriksson

Odelstad

et al. 2015

Geophysical Research Letters

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We use measurements from the Rosetta plasma consortium Langmuir probe and mutual impedance probe to study the spatial distribution of low‐energy plasma in the near‐nucleus coma of comet 67P/Churyumov‐Gerasimenko. The spatial distribution is highly structured with the highest density in the summer hemisphere and above the region connecting the two main lobes of the comet, i.e., the neck region. There is a clear correlation with the neutral density and the plasma to neutral density ratio is found to be ∼1–2·10−6, at a cometocentric distance of 10 km and at 3.1 AU from the Sun. A clear 6.2 h modulation of the plasma is seen as the neck is exposed twice per rotation. The electron density of the collisionless plasma within 260 km from the nucleus falls off with radial distance as ∼1/r. The spatial structure indicates that local ionization of neutral gas is the dominant source of low‐energy plasma around the comet.

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Subsurface properties and early activity of comet 67P/Churyumov-Gerasimenko

Cited by 247 publications

References 14 publications

Comparison of 3D kinetic and hydrodynamic models to ROSINA-COPS measurements of the neutral coma of 67P/Churyumov-Gerasimenko

Comparison of 3D kinetic and hydrodynamic models to ROSINA-COPS measurements of the neutral coma of 67P/Churyumov-Gerasimenko

The Rosetta Ion and Electron Sensor (IES) measurement of the development of pickup ions from comet 67P/Churyumov‐Gerasimenko

Spatial distribution of low‐energy plasma around comet 67P/CG from Rosetta measurements

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