Your search keyword '"Aurore Hutzler"' showing total 9 results

1. Introduction to the 'Planetary Exploration, Horizon 2061' foresight exercise

Author

Michel Blanc, Jonathan Lewis, Pierre Bousquet, Véronique Dehant, Bernard Foing, Manuel Grande, Linli Guo, Aurore Hutzler, Jérémie Lasue, Maria Antonietta Perino, Heike Rauer, Eleonora Ammannito, and Maria Teresa Capria

Published

2023

2. The enabling power of international cooperation

Author

Maria Antonietta Perino, Eleonora Ammannito, Gabriella Arrigo, Maria Teresa Capria, Bernard Foing, James Green, Ming Li, Jyeong Ja Kim, Mohammad Madi, Masami Onoda, Yoshio Toukaku, Véronique Dehant, Michel Blanc, Heike Rauer, Pierre Bousquet, Jérémie Lasue, Manuel Grande, Linli Guo, Aurore Hutzler, and Jonathan Lewis

Published

2023

3. Contributors

Author

Jorge Alves, Eleonora Ammannito, Nicolas André, Gabriella Arrigo, Sami Asmar, David Atkinson, Adriano Autino, Pierre Beck, Gilles Berger, Michel Blanc, Scott Bolton, Anne Bourdon, Pierre Bousquet, Emma Bunce, Maria Teresa Capria, Pascal Chabert, Sébastien Charnoz, Baptiste Chide, Steve Chien, Ilaria Cinelli, John Day, Véronique Dehant, Brice Demory, Shawn Domagal-Goldman, Caroline Dorn, Alberto G. Fairén, Valerio Filice, Leigh N. Fletcher, Bernard Foing, François Forget, Anthony Freeman, B. Scott Gaudi, Antonio Genova, Manuel Grande, James Green, Léa Griton, Linli Guo, Heidi Hammel, Christiane Heinicke, Ravit Helled, Kevin Heng, Alain Herique, Dennis Höning, Joshua Vander Hook, Aurore Hutzler, Takeshi Imamura, Caitriona Jackman, Yohai Kaspi, Jyeong Ja Kim, Daniel Kitzman, Wlodek Kofman, Eiichiro Kokubo, Oleg Korablev, Jérémie Lasue, Joseph Lazio, Jérémy Leconte, Emmanuel Lellouch, Louis Le Sergeant d'Hendecourt, Jonathan Lewis, Ming Li, Steve Mackwell, Mohammad Madi, Advenit Makaya, Nicolas Mangold, Bernard Marty, Sylvestre Maurice, Ralph McNutt, Patrick Michel, Alessandro Morbidelli, Christoph Mordasini, Olivier Mousis, David Nesvorny, Lena Noack, Masami Onoda, Merav Opher, Gian Gabriele Ori, James Owen, Chris Paranicas, Victor Parro, Maria Antonietta Perino, Christina Plainaki, Robert Preston, Olga Prieto-Ballesteros, Liping Qin, Sascha Quanz, Heike Rauer, Jose A. Rodriguez-Manfredi, Juergen Schmidt, Dave Senske, Ignas Snellen, Krista M. Soderlund, Christophe Sotin, Linda Spilker, Tilman Spohn, Keith Stephenson, Veerle J. Sterken, Leonardo Testi, Nicola Tosi, Yoshio Toukaku, Stéphane Udry, Ann C. Vandaele, Allona Vazan, Julia Venturini, Pierre Vernazza, J. Hunter Waite, Joachim Wambsganss, Armin Wedler, Frances Westall, Philippe Zarka, Sonia Zine, and Qiugang Zong

Published

2023

4. Preface

Author

Michel Blanc, Pierre Bousquet, Véronique Dehant, Bernard Foing, Manuel Grande, Linli Guo, Aurore Hutzler, Jérémie Lasue, Jonathan Lewis, Maria Antonietta Perino, and Heike Rauer

Published

2023

5. Final Report of the Mars Sample Return Science Planning Group 2 (MSPG2)

Author

Michael A. Meyer, Gerhard Kminek, David W. Beaty, Brandi L. Carrier, Timothy Haltigin, Lindsay E. Hays, Carl B. Agree, Henner Busemann, Barbara Cavalazzi, Charles S. Cockell, Vinciane Debaille, Daniel P. Glavin, Monica M. Grady, Ernst Hauber, Aurore Hutzler, Bernard Marty, Francis M. McCubbin, Lisa M. Pratt, Aaron B. Regberg, Alvin L. Smith, Caroline L. Smith, Roger E. Summons, Timothy D. Swindle, Kimberly T. Tait, Nicholas J. Tosca, Arya Udry, Tomohiro Usui, Michael A. Velbel, Meenakshi Wadhwa, Frances Westall, and Maria-Paz Zorzano

Subjects

life, laboratory experiments, Extraterrestrial Environment, astrobiology, Mars, Planets, sample return, Space Flight, exploration, Agricultural and Biological Sciences (miscellaneous), Space and Planetary Science, sample analysis, Exobiology, Humans

Abstract

The Mars Sample Return (MSR) Campaign must meet a series of scientific and technical achievements to be successful. While the respective engineering responsibilities to retrieve the samples have been formalized through a Memorandum of Understanding between ESA and NASA, the roles and responsibilities of the scientific elements have yet to be fully defined. In April 2020, ESA and NASA jointly chartered the MSR Science Planning Group 2 (MSPG2) to build upon previous planning efforts in defining 1) an end-to-end MSR Science Program and 2) needed functionalities and design requirements for an MSR Sample Receiving Facility (SRF). The challenges for the first samples brought from another planet include not only maintaining and providing samples in pristine condition for study, but also maintaining biological containment until the samples meet sample safety criteria for distribution outside of biocontainment. The MSPG2 produced six reports outlining 66 findings. Abbreviated versions of the five additional high-level MSPG2 summary findings are: Summary-1. A long-term NASA/ESA MSR Science Program, along with the necessary funding and human resources, will be required to accomplish the end-to-end scientific objectives of MSR. Summary-2. MSR curation would need to be done concurrently with Biosafety Level-4 containment. This would lead to complex first-of-a-kind curation implementations and require further technology development. Summary-3. Most aspects of MSR sample science could, and should, be performed on samples deemed safe in laboratories outside of the SRF. However, other aspects of MSR sample science are both time-sensitive and sterilization-sensitive and would need to be carried out in the SRF. Summary-4. To meet the unique science, curation, and planetary protection needs of MSR, substantial analytical and sample management capabilities would be required in an SRF. Summary-5. Because of the long lead-time for SRF design, construction, and certification, it is important that preparations begin immediately, even if there is delay in the return of samples.

Published

2021

6. MSR Science Planning Group 2 (MSPG2): Planning for the curation of MSR samples in a Sample Receiving Facility

Author

Kim Tait, Francis McCubbin, Caroline Smith, Carl Agee, David Beaty, Henner Busemann, Brandi Carrier, Barbara Cavalazzi, Vinciane Debaille, Aurore Hutzler, and Tomohiro Usui

Published

2021

7. Contributors

Author

Masanao Abe, Jérôme Aléon, Alice Aléon-Toppani, Allan Bennett, Lucy Berthoud, Janet Borg, John C. Bridges, Donald E. Brownlee, Rosario Brunetto, Don Burnett, John Robert Brucato, Vincenzo Della Corte, Vinciane Debaille, Fabrizio Dirri, Zahia Djouadi, Heather L. Enos, Ludovic Ferrière, Luigi Folco, Frédéric Foucher, Ian A. Franchi, Akira Fujiwara, Matthieu Gounelle, Monica M. Grady, John Holt, Aurore Hutzler, Eric A. Jerde, Amy Jurewicz, Junichiro Kawaguchi, Dante S. Lauretta, Stefano Leuko, Andrea Longobardo, Jonathan I. Lunine, Yves Marrocchi, Andrea Meneghin, Ernesto Palomba, Anjani T. Polit, Thomas Pottage, Yuqi Qian, Dan Reisenfeld, Petra Rettberg, Heather L. Roper, Alessandra Rotundi, Sara S. Russell, Scott A. Sandford, Caroline L. Smith, Evgeny Slyuta, Shogo Tachibana, Elizabeth J. Tasker, Akira Tsuchiyama, John Vrublevskis, Qian Wang, Qiong Wang, Frances Westall, Roger C. Wiens, Catherine W.V. Wolner, Long Xiao, Makoto Yoshikawa, Jutta Zipfel, and Michael E. Zolensky

Published

2021

8. Radionuclide Studies of Stony Meteorites from Hot Deserts

Author

A J Timothy Jull, Marlène D Giscard, Aurore Hutzler, Caitlin J Schnitzer, David Zahn, George S Burr, Lanny R McHargue, and Dolores Hill

Subjects

Archeology, 010504 meteorology & atmospheric sciences, General Earth and Planetary Sciences, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

We summarize the use of radiocarbon produced by spallation in meteorites in space to determine their terrestrial age or residence time. This “age” gives us important information as it can be compared to the rates of weathering and infall of meteorites. The processes that affect the collection of meteorites in a given area can be related to the rates of infall of new meteorites, and the rate of removal by chemical weathering and physical erosion.

Published

2013

9. Radionuclide Studies of Stony Meteorites from Hot Deserts

Author

Dolores H. Hill, George S. Burr, Caitlin J Schnitzer, Aurore Hutzler, David Zahn, Marlène D Giscard, A. J. Timothy Jull, and L. R. McHargue

Subjects

Archeology, Radionuclide, Meteorite, law, General Earth and Planetary Sciences, Weathering, Spallation, Radiocarbon dating, Geology, Astrobiology, law.invention

Abstract

We summarize the use of radiocarbon produced by spallation in meteorites in space to determine their terrestrial age or residence time. This “age” gives us important information as it can be compared to the rates of weathering and infall of meteorites. The processes that affect the collection of meteorites in a given area can be related to the rates of infall of new meteorites, and the rate of removal by chemical weathering and physical erosion. DOI: 10.2458/azu_js_rc.55.16202

Published

2013