Search

Your search keyword '"Jaumann, Ralf"' showing total 900 results
Start Over Author "Jaumann, Ralf"
900 results on '"Jaumann, Ralf"'

101. The Psyche Topography and Geomorphology Investigation

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Jaumann, Ralf, Bell, James F., Polanskey, Carol A., Raymond, Carol A., Aspaugh, Erik, Bercovici, David, Bills, Bruce R., Binzel, Richard, Bottke, William, Christoph, John M., Marchi, Simone, Neesemann, Alicia, Otto, Katharina, Park, Ryan S., Preusker, Frank, Roatsch, Thomas, Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Jaumann, Ralf, Bell, James F., Polanskey, Carol A., Raymond, Carol A., Aspaugh, Erik, Bercovici, David, Bills, Bruce R., Binzel, Richard, Bottke, William, Christoph, John M., Marchi, Simone, Neesemann, Alicia, Otto, Katharina, Park, Ryan S., Preusker, Frank, and Roatsch, Thomas

Abstract

Detailed mapping of topography is crucial for the understanding of processes shaping the surfaces of planetary bodies. In particular, stereoscopic imagery makes a major contribution to topographic mapping and especially supports the geologic characterization of planetary surfaces. Image data provide the basis for extensive studies of the surface structure and morphology on local, regional and global scales using photogeologic information from images, the topographic information from stereo-derived digital terrain models and co-registered spectral terrain information from color images. The objective of the Psyche topography and geomorphology investigation is to derive the detailed shape of (16) Psyche to generate orthorectified image mosaics, which are needed to study the asteroids’ landforms, interior structure, and the processes that have modified the surface over geologic time. In this paper we describe our approaches for producing shape models, and our plans for acquiring requested image data to quantify the expected accuracy of the results. Multi-angle images obtained by Psyche’s camera will be used to create topographic models with about 15 m/pixel horizontal resolution and better than 10 m height accuracy on a global scale. This is slightly better as global imaging obtained during the Dawn mission, however, both missions yield resolutions of a few m/pixel locally. Two different techniques, stereophotogrammetry and stereophotoclinometry, are used to model the shape; these models will be merged with the gravity fields obtained by the Psyche spacecraft to produce geodetically controlled topographic models. The resulting digital topography models, together with the gravity data, will reveal the tectonic, volcanic, impact, and gradational history of Psyche, and enable co-registration of data sets to determine Psyche’s geologic history.

Published
2022

102. Supporting Mars exploration: BIOMEX in Low Earth Orbit and further astrobiological studies on the Moon using Raman and PanCam technology

Author

de Vera, Jean-Pierre, Boettger, Ute, Noetzel, Rosa de la Torre, Sánchez, Francisco J, Grunow, Dana, Schmitz, Nicole, Lange, Caroline, Hübers, Heinz-Wilhelm, Billi, Daniela, Baqué, Mickael, Rettberg, Petra, Rabbow, Elke, Reitz, Günther, Berger, Thomas, Möller, Ralf, Bohmeier, Maria, Horneck, Gerda, Westall, Frances, Jänchen, Jochen, Fritz, Jörg, Meyer, Cornelia, Onofri, Silvano, Selbmann, Laura, Zucconi, Laura, Kozyrovska, Natalia, Leya, Thomas, Foing, Bernard, Demets, René, Cockell, Charles S., Bryce, Casey, Wagner, Dirk, Serrano, Paloma, Edwards, Howell G.M., Joshi, Jasmin, Huwe, Björn, Ehrenfreund, Pascale, Elsaesser, Andreas, Ott, Sieglinde, Meessen, Joachim, Feyh, Nina, Szewzyk, Ulrich, Jaumann, Ralf, and Spohn, Tilman

Published
2012
Full Text
View/download PDF

104. Future Mars geophysical observatories for understanding its internal structure, rotation, and evolution

Author

Dehant, Veronique, Banerdt, Bruce, Lognonné, Philippe, Grott, Matthias, Asmar, Sami, Biele, Jens, Breuer, Doris, Forget, François, Jaumann, Ralf, Johnson, Catherine, Knapmeyer, Martin, Langlais, Benoit, Le Feuvre, Mathieu, Mimoun, David, Mocquet, Antoine, Read, Peter, Rivoldini, Attilio, Romberg, Oliver, Schubert, Gerald, Smrekar, Sue, Spohn, Tilman, Tortora, Paolo, Ulamec, Stephan, and Vennerstrøm, Susanne

Published
2012
Full Text
View/download PDF

107. The Saturnian satellite Rhea as seen by Cassini VIMS

Author

Stephan, Katrin, Jaumann, Ralf, Wagner, Roland, Clark, Roger N., Cruikshank, Dale P., Giese, Bernd, Hibbitts, Charles A., Roatsch, Thomas, Matz, Klaus-Dieter, Brown, Robert H., Filacchione, Gianrico, Cappacioni, Fabrizio, Scholten, F., Buratti, Bonnie J., Hansen, Gary B., Nicholson, Phil D., Baines, Kevin H., Nelson, Robert M., and Matson, Dennis L.

Published
2012
Full Text
View/download PDF

109. Mars Express science highlights and future plans

Author

Titov, Dmitrij, primary, Wilson, Colin, additional, Bibring, Jean-Pierre, additional, Cardesin, Alejandro, additional, Carter, John, additional, Duxbury, Tom, additional, Forget, Francois, additional, Giuranna, Marco, additional, González-Galindo, Francisco, additional, Holmström, Mats, additional, Jaumann, Ralf, additional, Määttänen, Anni, additional, Martin, Patrick, additional, Montmessin, Franck, additional, Orosei, Roberto, additional, Pätzold, Martin, additional, Plaut, Jeff, additional, and Sgs Team, Mex, additional

Published
2022
Full Text
View/download PDF

110. MASCOT—The Mobile Asteroid Surface Scout Onboard the Hayabusa2 Mission

Author

Ho, Tra-Mi, primary, Baturkin, Volodymyr, additional, Grimm, Christian, additional, Grundmann, Jan Thimo, additional, Hobbie, Catherin, additional, Ksenik, Eugen, additional, Lange, Caroline, additional, Sasaki, Kaname, additional, Schlotterer, Markus, additional, Talapina, Maria, additional, Termtanasombat, Nawarat, additional, Wejmo, Elisabet, additional, Witte, Lars, additional, Wrasmann, Michael, additional, Wübbels, Guido, additional, Rößler, Johannes, additional, Ziach, Christian, additional, Findlay, Ross, additional, Biele, Jens, additional, Krause, Christian, additional, Ulamec, Stephan, additional, Lange, Michael, additional, Mierheim, Olaf, additional, Lichtenheldt, Roy, additional, Maier, Maximilian, additional, Reill, Josef, additional, Sedlmayr, Hans-Jürgen, additional, Bousquet, Pierre, additional, Bellion, Anthony, additional, Bompis, Olivier, additional, Cenac-Morthe, Celine, additional, Deleuze, Muriel, additional, Fredon, Stephane, additional, Jurado, Eric, additional, Canalias, Elisabet, additional, Jaumann, Ralf, additional, Bibring, Jean-Pierre, additional, Glassmeier, Karl Heinz, additional, Hercik, David, additional, Grott, Matthias, additional, Celotti, Luca, additional, Cordero, Federico, additional, Hendrikse, Jeffrey, additional, and Okada, Tatsuaki, additional

Published
2016
Full Text
View/download PDF

111. Terra, Terrae

Author

Jaumann, Ralf, Gargaud, Muriel, editor, Irvine, William M., editor, Amils, Ricardo, editor, Cleaves, Henderson James (Jim), II, editor, Pinti, Daniele L., editor, Quintanilla, José Cernicharo, editor, Rouan, Daniel, editor, Spohn, Tilman, editor, Tirard, Stéphane, editor, and Viso, Michel, editor

Published
2015
Full Text
View/download PDF

112. Areology

Author

Jaumann, Ralf, Gargaud, Muriel, editor, Irvine, William M., editor, Amils, Ricardo, editor, Cleaves, Henderson James (Jim), II, editor, Pinti, Daniele L., editor, Quintanilla, José Cernicharo, editor, Rouan, Daniel, editor, Spohn, Tilman, editor, Tirard, Stéphane, editor, and Viso, Michel, editor

Published
2015
Full Text
View/download PDF

113. The Spectral Properties of Pitted Impact Deposits on Vesta as Seen by the Dawn VIR Instrument

Author

Michalik, Tanja, Stephan, Katrin, Cloutis, E. A., Matz, K-D, Jaumann, Ralf, Raponi, A, and Otto, Katharina A.

Subjects
Asteroid surfaces (2209), Asteroid surfaces, Vesta, Vesta (2183), 500 Naturwissenschaften und Mathematik::550 Geowissenschaften, Geologie::550 Geowissenschaften, Spectroscopy (1558), Spectroscopy
Abstract

Pitted impact deposits (PIDs) on Vesta have been shown to exhibit distinct spectral characteristics with respect to their surrounding host deposits and other typical Vestan areas regarding the first major pyroxene absorption near 0.9 μm. The PIDs, especially those in the ejecta blanket of the large crater Marcia, show higher reflectance and pyroxene band strength with respect to their impact deposit surroundings. This study complements the spectral characterization of the PIDs on Vesta with Visible and Infrared Spectrometer observations obtained by NASA’s Dawn mission. In particular, we focus on the second major pyroxene absorption near 1.9 μm. We analyze nine PIDs in the ejecta blanket of the crater Marcia, as well as PIDs within the crater-fill deposits of the craters Marcia, Cornelia, and Licinia. We find that the second pyroxene absorption behaves in similar ways as the first major pyroxene absorption. The PIDs in Marcia’s ejecta blanket show higher reflectance and pyroxene band strength with respect to their immediate impact deposit surroundings. The PIDs present in the crater-fill deposits of Marcia, Cornelia, and Licinia, however, do not show such spectral characteristics. This is also consistent with previous observations of the first pyroxene absorption band. Based on the experimental results of other studies, we speculate that the observed spectral distinctness arises from an oxidation process in the interior of impact deposits, where Fe cations migrate within their host pyroxene grains. Thus, the surfaces of (melt-bearing) impact deposits might be different from their interiors, apart from space-weathering effects.

Published
2022

115. GAUSS - genesis of asteroids and evolution of the solar system

Author

Shi, Xian, Castillo-Rogez, Julie, Hsieh, Henry, Hui, Hejiu, Ip, Wing-Huen, Lei, Hanlun, Li, Jian-Yang, Tosi, Federico, Zhou, Liyong, Agarwal, Jessica, Barucci, Antonella, Beck, Pierre, Campo Bagatin, Adriano, Capaccioni, Fabrizio, Coates, Andrew, Cremonese, Gabriele, Duffard, Rene, Grande, Manuel, Jaumann, Ralf, Jones, Geraint, Kallio, Esa, Lin, Yangting, Mousis, Olivier, Nathues, Andreas, Oberst, Jürgen, Sierks, Holger, Ulamec, Stephan, and Wang, Mingyuan

Subjects
habitability, Dwarf planet, ocean world, Ceres, voyage 2050, sample return
Published
2021

117. Precipitation-induced surface brightenings seen on Titan by Cassini VIMS and ISS

Author

Barnes, Jason W, Buratti, Bonnie J, Turtle, Elizabeth P, Bow, Jacob, Dalba, Paul A, Perry, Jason, Brown, Robert H, Rodriguez, Sebastien, Mouélic, Stéphane Le, Baines, Kevin H, Sotin, Christophe, Lorenz, Ralph D, Malaska, Michael J, McCord, Thomas B, Clark, Roger N, Jaumann, Ralf, Hayne, Paul O, Nicholson, Philip D, Soderblom, Jason M, and Soderblom, Laurence A

Published
2013
Full Text
View/download PDF

121. Plume

Author

Breuer, Doris, primary and Jaumann, Ralf, additional

Published
2015
Full Text
View/download PDF

122. Solar System Exploration Research Virtual Institute: Year Three Annual Report 2016

Author

Pendleton, Yvonne, Schmidt, Greg, Kring, David, Horanyi, Mihaly, Heldmann, Jennifer, Glotch, Timothy, Rivkin, Andy, Farrell, William, Pieters, Carle, Bottke, William, Britt, Daniel, Bland, Phil, Jaumann, Ralf, Pinet, Patrick, Ju, Gwanghyeok, van Westrenen, Wim, Dell'Agnello, Simone, and Osinski, Gordon

Subjects
Space Sciences (General), Lunar And Planetary Science And Exploration
Abstract

NASA's Solar System Exploration Research Virtual Institute (SSERVI) is pleased to present the 2016 Annual Report. Each year brings new scientific discoveries, technological breakthroughs, and collaborations. The integration of basic research and development, industry and academic partnerships, plus the leveraging of existing technologies, has further opened a scientific window into human exploration. SSERVI sponsorship by the NASA Science Mission Directorate (SMD) and Human Exploration and Operations Mission Directorate (HEOMD) continues to enable the exchange of insights between the human exploration and space science communities, paving a clearer path for future space exploration. SSERVI provides a unique environment for scientists and engineers to interact within multidisciplinary research teams. As a virtual institute, the best teaming arrangements can be made irrespective of the geographical location of individuals or laboratory facilities. The interdisciplinary science that ensues from virtual and in-person interactions, both within the teams and across team lines, provides answers to questions that many times cannot be foreseen. Much of this research would not be accomplished except for the catalyzing, collaborative environment enabled by SSERVI. The SSERVI Central Office, located at NASA Ames Research Center in Silicon Valley, California, provides the leadership, guidance and technical support that steers the virtual institute. At the start of 2016, our institute had nine U.S. teams, each mid-way through their five-year funding cycle, plus nine international partnerships. However, by the end of the year we were well into the selection of four new domestic teams, selected through NASA's Cooperative Agreement Notice (CAN) process, and a new international partnership. Understanding that human and robotic exploration is most successful as an international endeavor, international partnerships collaborate with SSERVI domestic teams on a no-exchange of funds basis, but they bring a richness to the institute that is priceless. The international partner teams interact with the domestic teams in a number of ways, including sharing students, scientific insights, and access to facilities. We are proud to introduce our newest partnership with the Astrophysics and Planetology Research Institute (IRAP) in Toulouse, France. In 2016, Principal Investigator Dr. Patrick Pinet assembled a group of French researchers who will contribute scientific and technological expertise related to SSERVI research. SSERVI's domestic teams compete for five-year funding opportunities through proposals to a NASA CAN every few years. Having overlapping proposal selection cycles allows SSERVI to be more responsive to any change in direction NASA might experience, while providing operational continuity for the institute. Allowing new teams to blend with the more seasoned teams preserves corporate memory and expands the realm of collaborative possibilities. A key component of SSERVI's mission is to grow and maintain an integrated research community focused on questions related to the Moon, Near-Earth asteroids, and the moons of Mars. The strong community response to CAN-2 demonstrated the health of that effort. NASA Headquarters conducted the peer-review of 22 proposals early in 2017 and, based on recommendations from the SSERVI Central Office and NASA SSERVI program officers, the NASA selecting officials determined the new teams in the spring of 2017. We are pleased to welcome the CAN-2 teams into the institute, and look forward to the collaborations that will develop with the current teams. The new teams are: The Network for Exploration and Space Science (NESS) team (Principal Investigator (PI) Prof. Jack Burns/U. Colorado); the Exploration Science Pathfinder Research for Enhancing Solar System Observations (ESPRESSO) team (PI Dr. Alex Parker/Southwest Research Institute); the Toolbox for Research and Exploration (TREX) team (PI Dr. Amanda Hendrix/ Planetary Science Institute); and the Radiation Effects on Volatiles and Exploration of Asteroids & Lunar Surfaces (REVEALS) team (PI Prof. Thomas Orlando/ Georgia Institute of Technology). In this report, you will find an overview of the 2016 leadership activities of the SSERVI Central Office, reports prepared by the U.S. teams from CAN-1, and achievements from several of the SSERVI international partners. Reflecting on the past year's discoveries and advancements serves as a potent reminder that there is still a great deal to learn about NASA's target destinations. Innovation in the way we access, sample, measure, visualize, and assess our target destinations is needed for further discovery. At the same time, let us celebrate how far we have come, and strongly encourage a new generation that will make the most of future opportunities.

Published
2016

123. VIMS spectral mapping observations of Titan during the Cassini prime mission

Author

Barnes, Jason W., Soderblom, Jason M., Brown, Robert H., Buratti, Bonnie J., Sotin, Christophe, Baines, Kevin H., Clark, Roger N., Jaumann, Ralf, McCord, Thomas B., Nelson, Robert, Le Mouélic, Stéphane, Rodriguez, Sebastien, Griffith, Caitlin, Penteado, Paulo, Tosi, Federico, Pitman, Karly M., Soderblom, Laurence, Stephan, Katrin, Hayne, Paul, Vixie, Graham, Bibring, Jean-Pierre, Bellucci, Giancarlo, Capaccioni, Fabrizio, Cerroni, Priscilla, Coradini, Angioletta, Cruikshank, Dale P., Drossart, Pierre, Formisano, Vittorio, Langevin, Yves, Matson, Dennis L., Nicholson, Phillip D., and Sicardy, Bruno

Published
2009
Full Text
View/download PDF

124. Planetary Defense Ground Zero: MASCOT's View on the Rocks - an Update between First Images and Sample Return

Author

Ho, Tra-Mi, Jaumann, Ralf, Bibring, J.-P., Grott, Matthias, Glaßmeier, K.H. (4), Moussi-Soffys, A., Krause, Christian, Auster, Hans-Ulrich, Baturkin, Volodymyr, Biele, Jens, Cordero, Federico, Cozzoni, Barbara, Dudal, Clement, Fantinati, C., Grimm, Christian, Grundmann, Jan Thimo, Hamm, Maximilian, Hendrikse, Jeffrey, Hercik, David, Kayal, Kagan, Knollenberg, Jörg, Küchemann, Oliver, Lange, Caroline, Lange, Michael, Lorda, Laurence, Maibaum, Michael, Mimasu, Yuya, Cenac-Morthe, Céline, Okada, T., Otto, Katharina A., Pilorget, C., Reill, Josef, Saiki, Takanao, Sasaki, Kaname, Schlotterer, Markus, Schmitz, Nicole, Schröder, Stefan, Termtanasombat, Nawarat, Toth, Norbert, Tsuda, Y., Ulamec, S., Wolff, Friederike, Yoshimitsu, T., Ziach, Christian, the MASCOT team, the MASCOT team, Ailor, William H, Barbee, Brent, Drolshagen, Gerhard, Karl, Alex, Melamed, Nahum, and Brozovic, Marina

Subjects
Funktionsleichtbau, (162173) Ryugu, asteroid surface properties, MASCOT, Systementwicklung und Projektbüro, Nutzerzentrum für Weltraumexperimente (MUSC), Mechatronische Systeme, Planetengeologie, Planetenphysik, Avioniksysteme, Land und Explorationstechnologie, Planetare Sensorsysteme, HAYABUSA2, Mechanik und Thermalsysteme, planetary defense
Abstract

At 01:57:20 UTC on October 3rd, 2018, after 3½ years of cruise aboard the JAXA spacecraft HAYABUSA2 and about 3 months in the vicinity of its target, the MASCOT lander was separated successfully by from an altitude of 41 m. After a free-fall of only ~5m51s MASCOT made first contact with C-type near-Earth and potentially hazardous asteroid (162173) Ryugu, by hitting a big boulder. MASCOT then bounced for ~11m3s, in the process already gathering valuable information on mechanical properties of the surface before it came to rest. It was able to perform science measurements at 3 different locations on the surface of Ryugu and took many images of its spectacular pitch-black landscape. MASCOT’s payload suite was designed to investigate the fine-scale structure, multispectral reflectance, thermal characteristics and magnetic properties of the surface. Somewhat unexpectedly, MASCOT encountered very rugged terrain littered with large surface boulders. Observing in-situ, it confirmed the absence of fine particles and dust as already implied by the remote sensing instruments aboard the HAYABUSA2 spacecraft. After some 17h of operations, MASCOT‘s mission ended with the last communication contact as it followed Ryugu’s rotation beyond the horizon as seen from HAYABUSA2. Soon after, its primary battery was depleted. We present a broad overview of the recent scientific results of the MASCOT mission from separation through descent, landing and in-situ investigations on Ryugu until the end of its operation and relate them to the needs of planetary defense interactions with asteroids. We also recall the agile, responsive and sometimes serendipitous creation of MASCOT, the two-year rush of building and delivering it to JAXA’s HAYABUSA2 spacecraft in time for launch, and the four years of in-flight operations and on-ground testing to make the most of the brief on-surface mission.

Published
2021

125. Contributors

Author

Anand, Mahesh, primary, Aschwanden, Markus J., additional, Bagenal, Fran, additional, Banerdt, W. Bruce, additional, Bell, James F., additional, Bhardwaj, Anil, additional, Binzel, Richard P., additional, Brandt, John C., additional, Breuer, Doris, additional, Britt, Daniel T., additional, Buratti, Bonnie J., additional, Burke, James D., additional, Carr, Michael H., additional, Carter, Lynn M., additional, Catling, David C., additional, Chambers, John E., additional, Collins, Geoffrey, additional, Coustenis, Athena, additional, Crawford, Ian A., additional, Davis, Wanda L., additional, Dehant, Véronique, additional, Dennerl, Konrad, additional, de Pater, Imke, additional, Domingue, Deborah L., additional, Dones, Luke, additional, Dowling, Timothy E., additional, Drube, Line, additional, Dziewonski, Adam M., additional, Endl, Michael, additional, Ernst, Carolyn M., additional, Feuerbacher, Berndt, additional, Fortney, Jonathan J., additional, Golombek, Matthew P., additional, Gosling, J.T., additional, Grieve, Richard A.F., additional, Grimm, Robert, additional, Grott, Matthias, additional, Grün, Eberhard, additional, Guy Consolmagno, S.J., additional, Gwinner, Klaus, additional, Halliday, Alex N., additional, Harris, Alan W., additional, Hedman, Matthew M., additional, Hendrix, Amanda R., additional, Hiesinger, Harald, additional, Hufenbach, Bernhard, additional, Hunten, Donald M., additional, Jaumann, Ralf, additional, V. Johnson, Torrence, additional, Joy, Katherine H., additional, Kirk, Randolph L., additional, Kivelson, Margaret Galland, additional, Krüger, Harald, additional, Kurth, William S., additional, Lebofsky, Larry, additional, Leverington, David, additional, Levison, Harold F., additional, Lipschutz, Michael E., additional, Lissauer, Jack J., additional, Lisse, Carey M., additional, Lognonné, Philippe, additional, Lopes, Rosaly M.C., additional, Luhmann, J.G., additional, Marley, Mark S., additional, McFadden, Lucy A., additional, McKay, Christopher P., additional, McKinnon, William B., additional, McSween, Harry Y., additional, Morbidelli, Alessandro, additional, Mueller, Nils, additional, Murchie, Scott L., additional, Murray, Carl D., additional, Neish, Catherine D., additional, Nelson, Robert M., additional, Nimmo, Francis, additional, Oberst, Jürgen, additional, Osinski, Gordon R., additional, Pappalardo, Robert T., additional, Pieri, David C., additional, Porco, Carolyn, additional, Prettyman, Thomas H., additional, Preusker, Frank, additional, Prockter, Louise M., additional, Rivoldini, Attilio, additional, Schultz, Ludolf, additional, Showman, Adam P., additional, Smrekar, Suzanne E., additional, Smrekar, Sue, additional, Solomon, S.C., additional, Spohn, Tilman, additional, Stanley, Sabine, additional, Stern, S. Alan, additional, Stofan, Ellen R., additional, Strom, Robert G., additional, Sykes, Mark V., additional, Taylor, Fredric W., additional, Tegler, Stephen C., additional, Thomas, Peter C., additional, Tiscareno, Matthew S., additional, Tokunaga, Alan T., additional, Tornabene, Livio L., additional, Tosi, Nicola, additional, Van Hoolst, Tim, additional, Vervack, Ronald J., additional, Weber, Renee C., additional, Weissman, Paul R., additional, West, Robert A., additional, and Wilson, Lionel, additional

Published
2014
Full Text
View/download PDF

130. Plume

Author

Breuer, Doris, primary and Jaumann, Ralf, additional

Published
2014
Full Text
View/download PDF

137. Mars Express science highlights and future plans

Author

Titov, Dmitrij, primary, Bibring, Jean-Pierre, additional, Cardesin, Alejandro, additional, Carter, John, additional, Duxbury, Tom, additional, Forget, Francois, additional, Giuranna, Marco, additional, González-Galindo, Francisco, additional, Holmström, Mats, additional, Jaumann, Ralf, additional, Määttänen, Anni, additional, Martin, Patrick, additional, Montmessin, Franck, additional, Orosei, Roberto, additional, Pätzold, Martin, additional, Plaut, Jeffrey, additional, and Sgs Team, Mex, additional

Published
2021
Full Text
View/download PDF

138. Composition of Rheasilvia Basin on Asteroid Vesta

Author

Ammannito, Eleonora, DeSanctis, Maria Christina, Capaccioni, Fabrizio, Capria, Maria Teresa, Combe, Jean Philippe, Frigeri, Alessandro, Jaumann, Ralf, Longobardo, Andrea, Marchi, Somone, McCord, Thomas B, McSween, Harry Y., Jr, Mittlefehldt, David W, Stephan, Katrin, Tosi, Federico, Raymond, Carol A, and Russell, Christopher T

Subjects
Lunar And Planetary Science And Exploration
Abstract

The focus of the present study is the compositional analysis of small-scale surface features within the Rheasil-Aa basin on asteroid Vesta. We are using data acquired by the Visible and InfraRed mapping Spectrometer (VIR) on the Dawn mission. Nominal spatial resolution of the data set considered in this study is 70m/px. The portion of Rheasil-Aa basin below 65degS has a howarditic composition, with the higher concentration of diogenitic versus eucritic material in the region between 45deg and 225degE-lon. However, there are several locations, such as craters Tarpeia and Severina and Parentatio Rupes, with lithologic characteristics different from the surroundings regions. Tarpeia crater has a eucritic patch in the west side of the crater, the bottom part ofthe wall and part of the floor. Severina, located in a region of Mg-rich pyroxene, has some diogenitic units on the walls of the crater. Also the Parentatio Rupes has an ob-AOUS diogenitic unit. These units extend for 10-20km, and their location, especially in the case of the two craters, suggests they formed before the cratering events and also before the Rheasil-Aa impact event. The origin of these units is still unclear; however, their characteristics and locations suggests heterogeneity in the composition of the ancient Vestan crust in this particular location of the surface.

Published
2014

140. Asymmetric craters on Ceres

Author

Krohn, Katrin, Jaumann, Ralf, Wickhusen, Kai, Otto, Katharina A., Kersten, Elke, Stephan, Katrin, Wagner, Roland, Raymond, Carol A., and Russell, Christopher T.

Subjects
Planetengeologie, Crater morphologies, Planetengeodäsie, impact on slopes, asymmetric craters
Published
2021

142. GAUSS - genesis of asteroids and evolution of the solar system

Author

Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Shi, Xian, Castillo-Rogez, Julie, Hsieh, Henry, Hui, Hejiu, Ip, Wing-Huen, Lei, Hanlun, Li, Jian-Yang, Tosi, Federico, Zhou, Liyong, Agarwal, Jessica, Barucci, Antonella, Beck, Pierre, Campo Bagatin, Adriano, Capaccioni, Fabrizio, Coates, Andrew J., Cremonese, Gabriele, Duffard, René, Grande, Manuel, Jaumann, Ralf, Jones, Geraint H., Kallio, Esa, Lin, Yangting, Mousis, Olivier, Nathues, Andreas, Oberst, Jürgen, Sierks, Holger, Ulamec, Stephan, Wang, Mingyuan, The GAUSS Team, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Shi, Xian, Castillo-Rogez, Julie, Hsieh, Henry, Hui, Hejiu, Ip, Wing-Huen, Lei, Hanlun, Li, Jian-Yang, Tosi, Federico, Zhou, Liyong, Agarwal, Jessica, Barucci, Antonella, Beck, Pierre, Campo Bagatin, Adriano, Capaccioni, Fabrizio, Coates, Andrew J., Cremonese, Gabriele, Duffard, René, Grande, Manuel, Jaumann, Ralf, Jones, Geraint H., Kallio, Esa, Lin, Yangting, Mousis, Olivier, Nathues, Andreas, Oberst, Jürgen, Sierks, Holger, Ulamec, Stephan, Wang, Mingyuan, and The GAUSS Team

Abstract

The goal of Project GAUSS (Genesis of Asteroids and evolUtion of the Solar System) is to return samples from the dwarf planet Ceres. Ceres is the most accessible candidate of ocean worlds and the largest reservoir of water in the inner Solar System. It shows active volcanism and hydrothermal activities in recent history. Recent evidence for the existence of a subsurface ocean on Ceres and the complex geochemistry suggest past habitability and even the potential for ongoing habitability. GAUSS will return samples from Ceres with the aim of answering the following top-level scientific questions: - What is the origin of Ceres and what does this imply for the origin of water and other volatiles in the inner Solar System? - What are the physical properties and internal structure of Ceres? What do they tell us about the evolutionary and aqueous alteration history of dwarf planets? - What are the astrobiological implications of Ceres? Is it still habitable today? - What are the mineralogical connections between Ceres and our current collections of carbonaceous meteorites?

Published
2021

143. Farside explorer: unique science from a mission to the farside of the moon

Author

Mimoun, David, Wieczorek, Mark A., Alkalai, Leon, Banerdt, W. Bruce, Baratoux, David, Bougeret, Jean-Louis, Bouley, Sylvain, Cecconi, Baptiste, Falcke, Heino, Flohrer, Joachim, Garcia, Raphael F., Grimm, Robert, Grott, Matthias, Gurvits, Leonid, Jaumann, Ralf, Johnson, Catherine L., Knapmeyer, Martin, Kobayashi, Naoki, Konovalenko, Alexander, Lawrence, David, Feuvre, Mathieu Le, Lognonné, Philippe, Neal, Clive, Oberst, Jürgen, Olsen, Nils, Röttgering, Huub, Spohn, Tilman, Vennerstrom, Susanne, Woan, Graham, and Zarka, Philippe

Published
2012
Full Text
View/download PDF

144. Plume

Author

Breuer, Doris, Jaumann, Ralf, Gargaud, Muriel, editor, Amils, Ricardo, editor, Quintanilla, José Cernicharo, editor, Cleaves, Henderson James (Jim), II, editor, Irvine, William M., editor, Pinti, Daniele L., editor, and Viso, Michel, editor

Published
2011
Full Text
View/download PDF

147. Characteristics of Icy Surfaces

Author

Prockter, Louise M., Lopes, Rosaly M. C., Giese, Bernd, Jaumann, Ralf, Lorenz, Ralph D., Pappalardo, Robert T., Patterson, Gerald W., Thomas, Peter C., Turtle, Elizabeth P., and Wagner, Roland J.

Published
2010
Full Text
View/download PDF

148. Geologic History and Crater Morphology of Asteroid (162173) Ryugu

Author

Cho, Yuichiro, primary, Morota, Tomokatsu, additional, Kanamaru, Masanori, additional, Takaki, Naofumi, additional, Yumoto, Koki, additional, Ernst, Carolyn M., additional, Hirabayashi, Masatoshi, additional, Barnouin, Olivier S., additional, Tatsumi, Eri, additional, Otto, Katharina A., additional, Schmitz, Nicole, additional, Wagner, Roland J, additional, Jaumann, Ralf, additional, Miyamoto, Hideaki, additional, Kikuchi, Hiroshi, additional, Hemmi, Ryodo, additional, Honda, Rie, additional, Kameda, Shingo, additional, Yokota, Yasuhiro, additional, Kouyama, Toru, additional, Suzuki, Hidehiko, additional, Yamada, Manabu, additional, Sakatani, Naoya, additional, Honda, Chikatoshi, additional, Hayakawa, Masahiko, additional, Yoshioka, Kazuo, additional, Matsuoka, Moe, additional, Michikami, Tatsuhiro, additional, Hirata, Naru, additional, Sawada, Hirotaka, additional, Ogawa, Kazunori, additional, and Sugita, Seiji, additional

Published
2021
Full Text
View/download PDF

149. RPIFs to PDUCs: New Planetary Data Utilization Centers to support NASA’s Planetary Data Ecosystem

Author

Williams, David, primary, Anderson, Robert C., additional, Byrne, Shane, additional, Costard, Francois, additional, Hayes, Alexander, additional, Jaumann, Ralf, additional, Mouginis-Mark, Peter, additional, Muller, Jan-Peter, additional, Oberst, Jürgen, additional, Schultz, Peter H., additional, Spray, John G., additional, Stopar, Julie, additional, Sutton, Sarah, additional, and Watters, Thomas R., additional

Published
2021
Full Text
View/download PDF

150. Spectrophotometric Analysis of the Ryugu Rock Seen by MASCOT: Searching for a Carbonaceous Chondrite Analog

Author

Schröder, Stefan, primary, Otto, Katharina, additional, Scharf, Hannah, additional, Matz, Klaus-Dieter, additional, Schmitz, Nicole, additional, Scholten, Frank, additional, Mottola, Stefano, additional, Trauthan, Frank, additional, Koncz, Alexander, additional, Michaelis, Harald, additional, Jaumann, Ralf, additional, Ho, Tra-Mi, additional, Yabuta, Hikaru, additional, and Sugita, Seiji, additional

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results