Your search keyword '"Vallieres, Xavier"' showing total 8 results

1. The evolution of the electron number density in the coma of comet 67P at the location of Rosetta from 2015 November through 2016 March

Author

Vigren, Erik, Edberg, Niklas J. T., Eriksson, Anders I., Galand, Marina, Henri, Pierre, Johansson, Fredrik L., Odelstad, Elias, Rubin, Martin, and Vallieres, Xavier

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Space Physics

Abstract

A comet ionospheric model assuming the plasma to move radially outward with the same bulk speed as the neutral gas and not being subject to severe reduction through dissociative recombination has previously been tested in a series of case studies associated with the Rosetta mission at comet 67P/Churyumov-Gerasimenko. It has been found that at low activity and within several tens of km from the nucleus such models (which originally were developed for such conditions) generally work well in reproducing observed electron number densities, in particular when plasma production through both photoionization and electron-impact ionization is taken into account. Near perihelion, case studies have, on the contrary, showed that applying similar assumptions overestimates the observed electron number densities at the location of Rosetta. Here we compare ROSINA/COPS driven model results with RPC/MIP derived electron number densities for an extended time period (2015 November through 2016 March) during the post-perihelion phase with southern summer/spring. We observe a gradual transition from a state when the model grossly overestimates (by more than a factor of 10) the observations to being in reasonable agreement during 2016 March., Comment: (accepted version of manuscript)

Published

2019

2. Ion velocity and electron temperature inside and around the diamagnetic cavity of comet 67P

Author

Odelstad, Elias, Eriksson, Anders I., Johansson, Fredrik L., Vigren, Erik, Henri, Pierre, Gilet, Nicolas, Heritier, Kevin L., Vallières, Xavier, Rubin, Martin, and André, Mats

Subjects

Physics - Space Physics, Astrophysics - Earth and Planetary Astrophysics, Physics - Plasma Physics

Abstract

A major point of interest in cometary plasma physics has been the diamagnetic cavity, an unmagnetized region in the inner-most part of the coma. Here, we combine Langmuir and Mutual Impedance Probe measurements to investigate ion velocities and electron temperatures in the diamagnetic cavity of comet 67P, probed by the Rosetta spacecraft. We find ion velocities generally in the range 2-4 km/s, significantly above the expected neutral velocity $\lesssim$1~km/s, showing that the ions are (partially) decoupled from the neutrals, indicating that ion-neutral drag was not responsible for balancing the outside magnetic pressure. Observations of clear wake effects on one of the Langmuir probes showed that the ion flow was close to radial and supersonic, at least w.r.t. the perpendicular temperature, inside the cavity and possibly in the surrounding region as well. We observed spacecraft potentials $\lesssim$-5~V throughout the cavity, showing that a population of warm ($\sim$5~eV) electrons was present throughout the parts of the cavity reached by Rosetta. Also, a population of cold ($\lesssim0.1$~eV) electrons was consistently observed throughout the cavity, but less consistently in the surrounding region, suggesting that while Rosetta never entered a region of collisionally coupled electrons, such a region was possibly not far away during the cavity crossings., Comment: 34 pages, 10 figures

Published

2018

3. Ionospheric composition of comet 67P near perihelion with multi-instrument Rosetta datasets

Author

Lewis, Zoe, primary, Beth, Arnaud, additional, Altwegg, Kathrin, additional, Eriksson, Anders, additional, Galand, Marina, additional, Götz, Charlotte, additional, Henri, Pierre, additional, Héritier, Kevin, additional, O'Rourke, Laurence, additional, Richter, Ingo, additional, Rubin, Martin, additional, Stephenson, Peter, additional, and Vallieres, Xavier, additional

Published

2022

4. THE MIP EXPERIMENT OF THE ROSETTA ORBITER: A MUTUAL IMPEDANCE PROBE FOR WAVES AND PLASMAS DIAGNOSIS

Author

TROTIGNON, JEAN-GABRIEL, primary, VALLIERES, XAVIER, additional, LAGOUTTE, DOMINIQUE, additional, GRIMALD, SANDRINE, additional, LEBRETON, JEAN-PIERRE, additional, and ROBERT, PATRICK, additional

Published

2009

5. Cometary plasma response to interplanetary corotating interaction regions during 2016 June-September : a quantitative study by the Rosetta Plasma Consortium

Author

Hajra, Rajkumar, Henri, Pierre, Myllys, Minna, Heritier, Kevin L., Galand, Marina, Wedlund, Cyril Simon, Breuillard, Hugo, Behar, Etienne, Edberg, Niklas J. T., Goetz, Charlotte, Nilsson, Hans, Eriksson, Anders I., Goldstein, Raymond, Tsurutani, Bruce T., More, Jerome, Vallieres, Xavier, Wattieauxu, Gaetan, Hajra, Rajkumar, Henri, Pierre, Myllys, Minna, Heritier, Kevin L., Galand, Marina, Wedlund, Cyril Simon, Breuillard, Hugo, Behar, Etienne, Edberg, Niklas J. T., Goetz, Charlotte, Nilsson, Hans, Eriksson, Anders I., Goldstein, Raymond, Tsurutani, Bruce T., More, Jerome, Vallieres, Xavier, and Wattieauxu, Gaetan

Abstract

Four interplanetary corotating interaction regions (CIRs) were identified during 2016 June-September by the Rosetta Plasma Consortium (RPC) monitoring in situ the plasma environment of the comet 67P/Churyumov-Gerasimenko (67P) at heliocentric distances of similar to 3-3.8 au. The CIRs, formed in the interface region between low- and high-speed solar wind streams with speeds of similar to 320-400 km s(-1) and similar to 580-640 km s(-1), respectively, are characterized by relative increases in solar wind proton density by factors of similar to 13-29, in proton temperature by similar to 7-29, and in magnetic field by similar to 1-4 with respect to the pre-CIR values. The CIR boundaries are well defined with interplanetary discontinuities. Out of 10 discontinuities, four are determined to be forward waves and five are reverse waves, propagating at similar to 5-92 per cent of the magnetosonic speed at angles of similar to 20 degrees-87 degrees relative to ambient magnetic field. Only one is identified to be a quasi-parallel forward shock with magnetosonic Mach number of similar to 1.48 and shock normal angle of similar to 41 degrees. The cometary ionosphere response was monitored by Rosetta from cometocentric distances of similar to 4-30 km. A quiet time plasma density map was developed by considering dependences on cometary latitude, longitude, and cometocentric distance of Rosetta observations before and after each of the CIR intervals. The CIRs lead to plasma density enhancements of similar to 500-1000 per cent with respect to the quiet time reference level. Ionospheric modelling shows that increased ionization rate due to enhanced ionizing (>12-200 eV) electron impact is the prime cause of the large cometary plasma density enhancements during the CIRs. Plausible origin mechanisms of the cometary ionizing electron enhancements are discussed.

Published

2018

6. Dynamic unmagnetized plasma in the diamagnetic cavity around comet 67P/Churyumov-Gerasimenko

Author

Hajra, Rajkumar, Henri, Pierre, Vallieres, Xavier, More, Jerome, Gilet, Nicolas, Wattieaux, Gaetan, Goetz, Charlotte, Richter, Ingo, Tsurutani, Bruce T., Gunell, Herbert, Nilsson, Hans, Eriksson, Anders, Nemeth, Zoltan, Burchdegrees, James L., Rubin, Martin, Hajra, Rajkumar, Henri, Pierre, Vallieres, Xavier, More, Jerome, Gilet, Nicolas, Wattieaux, Gaetan, Goetz, Charlotte, Richter, Ingo, Tsurutani, Bruce T., Gunell, Herbert, Nilsson, Hans, Eriksson, Anders, Nemeth, Zoltan, Burchdegrees, James L., and Rubin, Martin

Abstract

The Rosetta orbiter witnessed several hundred diamagnetic cavity crossings (unmagnetized regions) around comet 67P/Churyumov-Gerasimenko during its two year survey of the comet. The characteristics of the plasma environment inside these diamagnetic regions are studied using in situ measurements by the Rosetta Plasma Consortium instruments. Although the unmagnetized plasma density has been observed to exhibit little dynamics compared to the very dynamical magnetized cometary plasma, we detected several localized dynamic plasma structures inside those diamagnetic regions. These plasma structures are not related to the direct ionization of local cometary neutrals. The structures are found to be steepened, asymmetric plasma enhancements with typical rising-to-descending slope ratio of similar to 2.8 (+/- 1.9), skewness similar to 0.43 (+/- 0.36), mean duration of similar to 2.7 (+/- 0.9) min and relative density variation Delta N/N of similar to 0.5 (+/- 0.2), observed close to the electron exobase. Similar steepened plasma density enhancements were detected at the magnetized boundaries of the diamagnetic cavity as well as outside the diamagnetic region. The plausible scalelength and propagation direction of the structures are estimated from simple plasma dynamics considerations. It is suggested that they are large-scale unmagnetized plasma enhancements, transmitted from the very dynamical outer magnetized region to the inner magnetic field-free cavity region.

Published

2018

7. Plasma waves at Comet 67P/Churyumov-Gerasimenko: in the diamagnetic cavity and outside it

Author

EGU 2017 (23-28/04/2017: Vienna), Gunell, H., Altwegg, Kathrin, Cessateur, Gaël, De Keyser, Johan, Dhooghe, Frederik, Eriksson, Anders, Gibbons, Andrew, Glassmeier, Karl Heinz, Götz, Charlotte C G, Karlsson, T., Hamrin, Maria, Henri, Pierre, Maggiolo, Romain, Nilsson, Hans, Odelstad, Elias, Rubin, Martin, Simon Wedlund, Cyril, Stenberg Wieser, Gabriella, Tzou, Chiayu C.Y., Vallieres, Xavier, EGU 2017 (23-28/04/2017: Vienna), Gunell, H., Altwegg, Kathrin, Cessateur, Gaël, De Keyser, Johan, Dhooghe, Frederik, Eriksson, Anders, Gibbons, Andrew, Glassmeier, Karl Heinz, Götz, Charlotte C G, Karlsson, T., Hamrin, Maria, Henri, Pierre, Maggiolo, Romain, Nilsson, Hans, Odelstad, Elias, Rubin, Martin, Simon Wedlund, Cyril, Stenberg Wieser, Gabriella, Tzou, Chiayu C.Y., and Vallieres, Xavier

Abstract

info:eu-repo/semantics/nonPublished

Published

2017

8. Ion acoustic waves at comet 67P/Churyumov-Gerasimenko: Observations and computations

Author

Gunell, H., Nilsson, Hans, Hamrin, Maria, Eriksson, Anders, Odelstad, Elias, Maggiolo, Romain, Henri, Pierre, Vallieres, Xavier, Altwegg, Kathrin, Tzou, Chiayu C.Y., Rubin, Martin, Glassmeier, Karl Heinz, Wieser, Gabriella Stenberg, Simon Wedlund, Cyril, De Keyser, Johan, Dhooghe, Frederik, Cessateur, Gaël, Gibbons, Andrew, Gunell, H., Nilsson, Hans, Hamrin, Maria, Eriksson, Anders, Odelstad, Elias, Maggiolo, Romain, Henri, Pierre, Vallieres, Xavier, Altwegg, Kathrin, Tzou, Chiayu C.Y., Rubin, Martin, Glassmeier, Karl Heinz, Wieser, Gabriella Stenberg, Simon Wedlund, Cyril, De Keyser, Johan, Dhooghe, Frederik, Cessateur, Gaël, and Gibbons, Andrew

Abstract

Context. On 20 January 2015 the Rosetta spacecraft was at a heliocentric distance of 2.5 AU, accompanying comet 67P/Churyumov-Gerasimenko on its journey toward the Sun. The Ion Composition Analyser (RPC-ICA), other instruments of the Rosetta Plasma Consortium, and the ROSINA instrument made observations relevant to the generation of plasma waves in the cometary environment. Aims. Observations of plasma waves by the Rosetta Plasma Consortium Langmuir probe (RPC-LAP) can be explained by dispersion relations calculated based on measurements of ions by the Rosetta Plasma Consortium Ion Composition Analyser (RPC-ICA), and this gives insight into the relationship between plasma phenomena and the neutral coma, which is observed by the Comet Pressure Sensor of the Rosetta Orbiter Spectrometer for Ion and Neutral Analysis instrument (ROSINA-COPS). Methods. We use the simple pole expansion technique to compute dispersion relations for waves on ion timescales based on the observed ion distribution functions. These dispersion relations are then compared to the waves that are observed. Data from the instruments RPC-LAP, RPC-ICA and the mutual impedance probe (RPC-MIP) are compared to find the best estimate of the plasma density. Results. We find that ion acoustic waves are present in the plasma at comet 67P/Churyumov-Gerasimenko, where the major ion species is H2O+. The bulk of the ion distribution is cold, kBTi = 0.01 eV when the ion acoustic waves are observed. At times when the neutral density is high, ions are heated through acceleration by the solar wind electric field and scattered in collisions with the neutrals. This process heats the ions to about 1 eV, which leads to significant damping of the ion acoustic waves. Conclusions. In conclusion, we show that ion acoustic waves appear in the H2O+ plasmas at comet 67P/Churyumov-Gerasimenko and how the interaction between the neutral and ion populations affects the wave properties., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017