Your search keyword '"Grava, Cesare"' showing total 13 results

1. The case for studying other planetary magnetospheres and atmospheres in Heliophysics

Author

Cohen, Ian J., Arridge, Chris, Azari, Abigail, Bard, Chris, Clark, George, Crary, Frank, Curry, Shannon, Delamere, Peter, Dewey, Ryan M., DiBraccio, Gina A., Dong, Chuanfei, Drozdov, Alexander, Egert, Austin, Filwett, Rachael, Halekas, Jasper, Halford, Alexa, Hughes, Andréa, Garcia-Sage, Katherine, Gkioulidou, Matina, Goetz, Charlotte, Grava, Cesare, Hirsch, Michael, Huybrighs, Hans Leo F., Kollmann, Peter, Lamy, Laurent, Li, Wen, Liemohn, Michael, Marshal, Robert, Masters, Adam, McAteer, R. T. James, Molaverdikhani, Karan, Mukhopadhyay, Agnit, Nikoukar, Romina, Paxton, Larry, Regoli, Leonardo H., Roussos, Elias, Schneider, Nick, Sulaiman, Ali, Sun, Y., and Szalay, Jamey

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Physics - Space Physics

Abstract

Heliophysics is the field that "studies the nature of the Sun, and how it influences the very nature of space - and, in turn, the atmospheres of planetary bodies and the technology that exists there." However, NASA's Heliophysics Division tends to limit study of planetary magnetospheres and atmospheres to only those of Earth. This leaves exploration and understanding of space plasma physics at other worlds to the purview of the Planetary Science and Astrophysics Divisions. This is detrimental to the study of space plasma physics in general since, although some cross-divisional funding opportunities do exist, vital elements of space plasma physics can be best addressed by extending the expertise of Heliophysics scientists to other stellar and planetary magnetospheres. However, the diverse worlds within the solar system provide crucial environmental conditions that are not replicated at Earth but can provide deep insight into fundamental space plasma physics processes. Studying planetary systems with Heliophysics objectives, comprehensive instrumentation, and new grant opportunities for analysis and modeling would enable a novel understanding of fundamental and universal processes of space plasma physics. As such, the Heliophysics community should be prepared to consider, prioritize, and fund dedicated Heliophysics efforts to planetary targets to specifically study space physics and aeronomy objectives.

Published

2023

2. Lunar Volatiles and Solar System Science

Author

Prem, Parvathy, Kereszturi, Ákos, Deutsch, Ariel N., Hibbitts, Charles A., Schmidt, Carl A., Grava, Cesare, Honniball, Casey I., Hardgrove, Craig J., Pieters, Carlé M., Goldstein, David B., Barker, Donald C., Needham, Debra H., Hurley, Dana M., Mazarico, Erwan, Dominguez, Gerardo, Patterson, G. Wesley, Kramer, Georgiana Y., Brisset, Julie, Gillis-Davis, Jeffrey J., Mitchell, Julie L., Szalay, Jamey R., Halekas, Jasper S., Keane, James T., Head, James W., Mandt, Kathleen E., Robinson, Katharine L., Luchsinger, Kristen M., Magaña, Lizeth O., Siegler, Matthew A., Landis, Margaret E., Poston, Michael J., Petro, Noah E., Lucey, Paul G., Killen, Rosemary M., Li, Shuai, Narendranath, Shyama, Shukla, Shashwat, Barrett, Thomas J., Stubbs, Timothy J., Orlando, Thomas M., and Farrell, William M.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Understanding the origin and evolution of the lunar volatile system is not only compelling lunar science, but also fundamental Solar System science. This white paper (submitted to the US National Academies' Decadal Survey in Planetary Science and Astrobiology 2023-2032) summarizes recent advances in our understanding of lunar volatiles, identifies outstanding questions for the next decade, and discusses key steps required to address these questions.

Published

2020

3. Solar System Ice Giants: Exoplanets in our Backyard

Author

Rymer, Abigail, Mandt, Kathleen, Hurley, Dana, Lisse, Carey, Izenberg, Noam, Smith, H. Todd, Westlake, Joseph, Bunce, Emma, Arridge, Christopher, Masters, Adam, Hofstadter, Mark, Simon, Amy, Brandt, Pontus, Clark, George, Cohen, Ian, Allen, Robert, Vine, Sarah, Hansen, Kenneth, Hospodarsky, George, Kurth, William, Romani, Paul, Lamy, Laurent, Zarka, Philippe, Cao, Hao, Paty, Carol, Hedman, Matthew, Roussos, Elias, Cruikshank, Dale, Farrell, William, Fieseler, Paul, Coates, Andrew, Yelle, Roger, Parkinson, Christopher, Militzer, Burkhard, Grodent, Denis, Kollmann, Peter, McNutt, Ralph, André, Nicolas, Strange, Nathan, Barnes, Jason, Dones, Luke, Denk, Tilmann, Rathbun, Julie, Lunine, Jonathan, Desai, Ravi, Cochrane, Corey, Sayanagi, Kunio M., Postberg, Frank, Ebert, Robert, Hill, Thomas, Mueller-Wodarg, Ingo, Regoli, Leonardo, Pontius, Duane, Stanley, Sabine, Greathouse, Thomas, Saur, Joachim, Marouf, Essam, Bergman, Jan, Higgins, Chuck, Johnson, Robert, Thomsen, Michelle, Soderlund, Krista, Jia, Xianzhe, Wilson, Robert, Englander, Jacob, Burch, Jim, Nordheim, Tom, Grava, Cesare, Baines, Kevin, Quick, Lynnae, Russell, Christopher, Cravens, Thomas, Cecconi, Baptiste, Aslam, Shahid, Bray, Veronica, Garcia-Sage, Katherine, Richardson, John, Clark, John, Hsu, Sean, Achterberg, Richard, Sergis, Nick, Paganelli, Flora, Kempf, Sasha, Orton, Glenn, Portyankina, Ganna, Jones, Geraint, Economou, Thanasis, Livengood, Timothy, Krimigi, Stamatios, Szalay, James, Jackman, Catriona, Valek, Phillip, Lecacheux, Alain, Colwell, Joshua, Jasinski, Jamie, Tosi, Federico, Sulaiman, Ali, Galand, Marina, Kotova, Anna, Khurana, Krishan, Kivelson, Margaret, Strobel, Darrell, Radiota, Aikaterina, Estrada, Paul, Livi, Stefano, Azari, Abigail, Yates, Japheth, Allegrini, Frederic, Vogt, Marissa, Felici, Marianna, Luhmann, Janet, Filacchione, Gianrico, and Moore, Luke

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Future remote sensing of exoplanets will be enhanced by a thorough investigation of our solar system Ice Giants (Neptune-size planets). What can the configuration of the magnetic field tell us (remotely) about the interior, and what implications does that field have for the structure of the magnetosphere; energy input into the atmosphere, and surface geophysics (for example surface weathering of satellites that might harbour sub-surface oceans). How can monitoring of auroral emission help inform future remote observations of emission from exoplanets? Our Solar System provides the only laboratory in which we can perform in-situ experiments to understand exoplanet formation, dynamos, systems and magnetospheres., Comment: Exoplanet Science Strategy White Paper, submitted to the National Academies of Sciences, Engineering and Medicine, Space Studies Board, 9 March 2018

Published

2018

4. New Insights into Aristarchus Crater with LRO LAMP Far-ultraviolet Observations

Author

Czajka, Elizabeth, primary, Retherford, Kurt, additional, Kramer, Georgiana, additional, Hendrix, Amanda, additional, Cahill, Joshua, additional, Byron, Benjamin, additional, Greenhagen, Benjamin, additional, Greathouse, Thomas, additional, Magaña, Lizeth, additional, Mandt, Kathleen, additional, and Grava, Cesare, additional

Published

2023

5. LRO-LAMP Observations of the Preperihelion Coma of Comet C/2013 A1 (Siding Spring)

Author

Magaña, Lizeth O., primary, Retherford, Kurt D., additional, Bodewits, Dennis, additional, Feaga, Lori M., additional, Grava, Cesare, additional, Feldman, Paul D., additional, Greathouse, Thomas K., additional, and Noonan, John W., additional

Published

2022

6. A Possible Dust Origin for an Unusual Feature in Io’s Sodium Neutral Clouds

Author

Grava, Cesare, primary, Cassidy, Timothy A., additional, Schneider, Nicholas M., additional, Hsu, Hsiang-Wen, additional, Morgenthaler, Jeffrey P., additional, Leblanc, François, additional, Mangano, Valeria, additional, Retherford, Kurt D., additional, Burger, Matthew H., additional, and Barbieri, Cesare, additional

Published

2021

7. Exploration of the Ice Giant Systems: A White Paper for NASA's Planetary Science and Astrobiology Decadal Survey 2023-2032

Author

Beddingfield, Chloe, Li, Cheng, Atreya, Sushil, Beauchamp, Patricia, Cohen, Ian, Fortney, Jonathan, Hammel, Heidi, Hedman, Matthew, Hofstadter, Mark, Rymer, Abigail, Schenk, Paul, Showalter, Mark, Ahrens, Caitlin, Aplin, Karen, Arney, Giada, Aslam, Shahid, Azari, Abigail, Baillié, Kevin, Barth, Erika, BENNETT, christopher, Bertrand, Tanguy, Beyer, Ross, Bramson, Ali, Bierson, Carver, Brozovic, Marina, Brueshaber, Shawn, Bruce, Emma, Burr, Devon, Burratti, Bonnie, Byrne, Paul, Cao, Xin, Cartwright, Richard, Castillo-Rogez, Julie, Chancia, Rob, Chanover, Nancy, Clark, George, Coates, Andrew, Cochrane, Corey, Collins, Geoff, Colwell, Joshua, Crary, Frank, Cruikshank, Dale, Coustenis, Athena, Ćuk, Matija, Dahl, Emma, Daubar, Ingrid, DeColibus, David, DePater, Imke, Dhingra, Rajani, Dong, Chuanfei, Elder, Catherine, Emery, Joshua, Ermakov, Anton, Ferguson, Sierra, Fletcher, Leigh, French, Robert, Golder, Keenan, González, Felipe, Gordon, Mitchell, Grava, Cesare, Grodent, Denis, Grundy, Will, Hammond, Noah, Hawkins, Emily, Hayes, Alex, Helfenstein, Paul, Helled, Ravit, Hemingway, Douglas, Hendrix, Amanda, Higgins, Chuck, Hofmann, Amy, Holler, Bryan, Holt, Timothy, Hospodarsky, George, Howett, Carly, Hsu, Hsiang-Wen, Jackman, Caitriona, Jasinski, Jamie, Jha, Devanshu, Jia, Xianzhe, Jun, Insoo, Karkoschka, Erich, Kattenhorn, Simon, Kinczyk, Mallory, Kirchoff, Michelle, Kollmann, Peter, Kumar, Kartik, Keane, James, Kampf, Sascha, Leonard, Erin, Leung, Cecilia, Lissauer, Jack, Lopes, Rosaly, Lucas, Michael, Lucchetti, Alice, Mandt, Kathleen, Marouf, Essam, Martin, Emily, Masters, Adam, McGrath, Melissa, Michaels, Tim, Mitchell, Karl, Moran, Sarah, Moses, Julianne, Nenon, Quentin, Neveu, Marc, Nimmo, Francis, Nordheim, Tom, Pajola, Maurizio, Pappalardo, Robert, Paranicas, Chris, Patthoff, Alex, Paty, Carol, Person, Michael, Peterson, Georgia, Pinilla-Alonso, Noemi, Porter, Simon, Postberg, Frank, Probst, Alena, Quick, Lynnae, Regoli, Leonardo, Rivera-Valentín, Edgard, Roatsch, Thomas, Roberge, Aki, Roberts, James, Robbins, Stuart, Rodriguez, Sébastien, Roser, Joe, Roussos, Elias, Runyon, Kirby, Scipioni, Francesca, Scully, Jennifer, Singer, Kelsi, Soderlund, Krista, Sori, Mike, Spilker, Linda, Stern, Alan, Stryk, Ted, Styczinski, Marshall, Sulaiman, Ali, Tamayo, Daniel, Thieman, Jim, Tiscareno, Matthew, Tortora, Paolo, Turtle, Elizabeth, Umurhan, Orkan, Weiss, Benjamin, White, Oliver, Search for Extraterrestrial Intelligence Institute (SETI), Institut de Mécanique Céleste et de Calcul des Ephémérides (IMCCE), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Lille-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Physics::Space Physics, [SDU.ASTR.EP]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP], Astrophysics::Solar and Stellar Astrophysics, FOS: Physical sciences, Astrophysics::Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Physics::Atmospheric and Oceanic Physics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Ice giants are the only unexplored class of planet in our Solar System. Much that we currently know about these systems challenges our understanding of how planets, rings, satellites, and magnetospheres form and evolve. We assert that an ice giant Flagship mission with an atmospheric probe should be a priority for the decade 2023-2032.

Published

2020

8. LRO/LAMP observations of the lunar helium exosphere: constraints on thermal accommodation and outgassing rate

Author

Grava, Cesare, primary, Hurley, Dana M, additional, Feldman, Paul D, additional, Retherford, Kurt D, additional, Greathouse, Thomas K, additional, Pryor, Wayne R, additional, Gladstone, G Randall, additional, Halekas, Jasper S, additional, Mandt, Kathleen E, additional, Wyrick, Danielle Y, additional, Davis, Michael W, additional, Egan, Anthony F, additional, Kaufmann, David E, additional, Versteeg, Maarten H, additional, and Stern, S Alan, additional

Published

2020

9. Solar System Ice Giants: Exoplanets in our Backyard

Author

Rymer, Abigail, Mandt, Kathleen, Hurley, Dana, Lisse, Carey, Izenberg, Noam, Smith, H. Todd, Westlake, Joseph, Bunce, Emma, Arridge, Christopher, Masters, Adam, Hofstadter, Mark, Simon, Amy, Brandt, Pontus, Clark, George, Cohen, Ian, Allen, Robert, Vine, Sarah, Hansen, Kenneth, Hospodarsky, George, Kurth, William, Romani, Paul, Lamy, Laurent, Zarka, Philippe, Cao, Hao, Paty, Carol, Hedman, Matthew, Roussos, Elias, Cruikshank, Dale, Farrell, William, Fieseler, Paul, Coates, Andrew, Yelle, Roger, Parkinson, Christopher, Militzer, Burkhard, Grodent, Denis, Kollmann, Peter, McNutt, Ralph, André, Nicolas, Strange, Nathan, Barnes, Jason, Dones, Luke, Denk, Tilmann, Rathbun, Julie, Lunine, Jonathan, Desai, Ravi, Cochrane, Corey, Sayanagi, Kunio M., Postberg, Frank, Ebert, Robert, Hill, Thomas, Mueller-Wodarg, Ingo, Regoli, Leonardo, Pontius, Duane, Stanley, Sabine, Greathouse, Thomas, Saur, Joachim, Marouf, Essam, Bergman, Jan, Higgins, Chuck, Johnson, Robert, Thomsen, Michelle, Soderlund, Krista, Jia, Xianzhe, Wilson, Robert, Englander, Jacob, Burch, Jim, Nordheim, Tom, Grava, Cesare, Baines, Kevin, Quick, Lynnae, Russell, Christopher, Cravens, Thomas, Cecconi, Baptiste, Aslam, Shahid, Bray, Veronica, Garcia-Sage, Katherine, Richardson, John, Clark, John, Hsu, Sean, Achterberg, Richard, Sergis, Nick, Paganelli, Flora, Kempf, Sasha, Orton, Glenn, Portyankina, Ganna, Jones, Geraint, Economou, Thanasis, Livengood, Timothy, Krimigi, Stamatios, Szalay, James, Jackman, Catriona, Valek, Phillip, Lecacheux, Alain, Colwell, Joshua, Jasinski, Jamie, Tosi, Federico, Sulaiman, Ali, Galand, Marina, Kotova, Anna, Khurana, Krishan, Kivelson, Margaret, Strobel, Darrell, Radiota, Aikaterina, Estrada, Paul, Livi, Stefano, Azari, Abigail, Yates, Japheth, Allegrini, Frederic, Vogt, Marissa, Felici, Marianna, Luhmann, Janet, Filacchione, Gianrico, Moore, Luke, ITA, USA, GBR, FRA, and DEU

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Astrophysics::High Energy Astrophysical Phenomena, Physics::Space Physics, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Physics::Atmospheric and Oceanic Physics, Computer Science::Databases, Astrophysics - Earth and Planetary Astrophysics

Abstract

Future remote sensing of exoplanets will be enhanced by a thorough investigation of our solar system Ice Giants (Neptune-size planets). What can the configuration of the magnetic field tell us (remotely) about the interior, and what implications does that field have for the structure of the magnetosphere; energy input into the atmosphere, and surface geophysics (for example surface weathering of satellites that might harbour sub-surface oceans). How can monitoring of auroral emission help inform future remote observations of emission from exoplanets? Our Solar System provides the only laboratory in which we can perform in-situ experiments to understand exoplanet formation, dynamos, systems and magnetospheres., Exoplanet Science Strategy White Paper, submitted to the National Academies of Sciences, Engineering and Medicine, Space Studies Board, 9 March 2018

Published

2019

10. DETECTION OF A HYDROGEN CORONA IN HST Ly alpha IMAGES OF EUROPA IN TRANSIT OF JUPITER

Author

Roth, Lorenz, Retherford, Kurt D., Ivchenko, Nickolay, Schlatter, Nicola, Strobel, Darrell F., Becker, Tracy M., Grava, Cesare, Roth, Lorenz, Retherford, Kurt D., Ivchenko, Nickolay, Schlatter, Nicola, Strobel, Darrell F., Becker, Tracy M., and Grava, Cesare

Abstract

We report far-ultraviolet observations of Europa in transit of Jupiter obtained with the Space Telescope Imaging Spectrograph of the Hubble Space Telescope on six occasions between 2014 December and 2015 March. Absorption of Jupiter's bright hydrogen Ly alpha dayglow is detected in a region several moon radii above the limb in all observations. The observed extended absorption provides the first detection of an atomic hydrogen corona around Europa. Molecular constituents in Europa's global sputtered atmosphere are shown to be optically thin to Lya. The observations are consistent with a radially escaping H corona with maximum densities at the surface in the range of (1.5-2.2) x 10(3) cm(-3), confirming the abundances predicted by Monte Carlo simulations. In addition, we search for anomalies around the limb of Europa from absorption by localized high H2O abundances from active plumes. No significant local absorption features are detected. We find that an H2O plume with line-of-sight column density in the order of 10(16) cm(-2), as inferred by Roth et al. would not be detectable based on the statistical fluctuations of the transit measurements, and hence is not excluded or further constrained. The presence of plumes with line-of-sight column densities of >2 x 10(17) cm(-2) can be excluded at a 3-sigma level during five of our six observations., QC 20170329

Published

2017

11. DETECTION OF A HYDROGEN CORONA INHSTLyαIMAGES OF EUROPA IN TRANSIT OF JUPITER

Author

Roth, Lorenz, primary, Retherford, Kurt D., additional, Ivchenko, Nickolay, additional, Schlatter, Nicola, additional, Strobel, Darrell F., additional, Becker, Tracy M., additional, and Grava, Cesare, additional

Published

2017

12. Lunar Volatiles and Solar System Science

Author

Prem, Parvathy, Kereszturi, Ákos, Deutsch, Ariel N., Hibbitts, Charles A., Schmidt, Carl A., Grava, Cesare, Honniball, Casey I., Hardgrove, Craig J., Pieters, Carlé M., Goldstein, David B., Barker, Donald C., Needham, Debra H., Hurley, Dana M., Mazarico, Erwan, Dominguez, Gerardo, Patterson, G. Wesley, Kramer, Georgiana Y., Brisset, Julie, Gillis-Davis, Jeffrey J., Mitchell, Julie L., Szalay, Jamey R., Halekas, Jasper S., Keane, James T., Head, James W., Mandt, Kathleen E., Robinson, Katharine L., Luchsinger, Kristen M., Magaña, Lizeth O., Siegler, Matthew A., Landis, Margaret E., Poston, Michael J., Petro, Noah E., Lucey, Paul G., Killen, Rosemary M., Li, Shuai, Narendranath, Shyama, Shukla, Shashwat, Barrett, Thomas, Stubbs, Timothy J., Orlando, Thomas M., Farrell, William M., Prem, Parvathy, Kereszturi, Ákos, Deutsch, Ariel N., Hibbitts, Charles A., Schmidt, Carl A., Grava, Cesare, Honniball, Casey I., Hardgrove, Craig J., Pieters, Carlé M., Goldstein, David B., Barker, Donald C., Needham, Debra H., Hurley, Dana M., Mazarico, Erwan, Dominguez, Gerardo, Patterson, G. Wesley, Kramer, Georgiana Y., Brisset, Julie, Gillis-Davis, Jeffrey J., Mitchell, Julie L., Szalay, Jamey R., Halekas, Jasper S., Keane, James T., Head, James W., Mandt, Kathleen E., Robinson, Katharine L., Luchsinger, Kristen M., Magaña, Lizeth O., Siegler, Matthew A., Landis, Margaret E., Poston, Michael J., Petro, Noah E., Lucey, Paul G., Killen, Rosemary M., Li, Shuai, Narendranath, Shyama, Shukla, Shashwat, Barrett, Thomas, Stubbs, Timothy J., Orlando, Thomas M., and Farrell, William M.

13. Lunar Volatiles and Solar System Science

Author

Prem, Parvathy, Kereszturi, Ákos, Deutsch, Ariel N., Hibbitts, Charles A., Schmidt, Carl A., Grava, Cesare, Honniball, Casey I., Hardgrove, Craig J., Pieters, Carlé M., Goldstein, David B., Barker, Donald C., Needham, Debra H., Hurley, Dana M., Mazarico, Erwan, Dominguez, Gerardo, Patterson, G. Wesley, Kramer, Georgiana Y., Brisset, Julie, Gillis-Davis, Jeffrey J., Mitchell, Julie L., Szalay, Jamey R., Halekas, Jasper S., Keane, James T., Head, James W., Mandt, Kathleen E., Robinson, Katharine L., Luchsinger, Kristen M., Magaña, Lizeth O., Siegler, Matthew A., Landis, Margaret E., Poston, Michael J., Petro, Noah E., Lucey, Paul G., Killen, Rosemary M., Li, Shuai, Narendranath, Shyama, Shukla, Shashwat, Barrett, Thomas, Stubbs, Timothy J., Orlando, Thomas M., Farrell, William M., Prem, Parvathy, Kereszturi, Ákos, Deutsch, Ariel N., Hibbitts, Charles A., Schmidt, Carl A., Grava, Cesare, Honniball, Casey I., Hardgrove, Craig J., Pieters, Carlé M., Goldstein, David B., Barker, Donald C., Needham, Debra H., Hurley, Dana M., Mazarico, Erwan, Dominguez, Gerardo, Patterson, G. Wesley, Kramer, Georgiana Y., Brisset, Julie, Gillis-Davis, Jeffrey J., Mitchell, Julie L., Szalay, Jamey R., Halekas, Jasper S., Keane, James T., Head, James W., Mandt, Kathleen E., Robinson, Katharine L., Luchsinger, Kristen M., Magaña, Lizeth O., Siegler, Matthew A., Landis, Margaret E., Poston, Michael J., Petro, Noah E., Lucey, Paul G., Killen, Rosemary M., Li, Shuai, Narendranath, Shyama, Shukla, Shashwat, Barrett, Thomas, Stubbs, Timothy J., Orlando, Thomas M., and Farrell, William M.