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2. First Focal Mechanisms of Marsquakes

Author

Brinkman, Nienke, Stahler, Simon C., Giardini, Domenico, Schmelzbach, Cedric, Khan, Amir, Jacob, Alice, Fuji, Nobuaki, Perrin, Clement, Lognonne, Philippe, Beucler, Eric, Bose, Maren, Ceylan, Savas, Charalambous, Constantinos, Clinton, John F., van Driel, Martin, Euchner, Fabian, Horleston, Anna, Kawamura, Taichi, Knapmeyer-Endrun, Brigitte, Mainsant, Guenole, Panning, Mark P., Pike, William T., Scholz, John-Robert, Robertsson, Johan O. A., Banerdt, William B., Brinkman, Nienke, Stahler, Simon C., Giardini, Domenico, Schmelzbach, Cedric, Khan, Amir, Jacob, Alice, Fuji, Nobuaki, Perrin, Clement, Lognonne, Philippe, Beucler, Eric, Bose, Maren, Ceylan, Savas, Charalambous, Constantinos, Clinton, John F., van Driel, Martin, Euchner, Fabian, Horleston, Anna, Kawamura, Taichi, Knapmeyer-Endrun, Brigitte, Mainsant, Guenole, Panning, Mark P., Pike, William T., Scholz, John-Robert, Robertsson, Johan O. A., and Banerdt, William B.

Abstract

Since February 2019, NASA's InSight lander is recording seismic signals on the planet Mars, which, for the first time, allows to observe ongoing tectonic processes with geophysical methods. A number of Marsquakes have been located in the Cerberus Fossae graben system in Elysium Planitia and further west, in the Orcus Patera depression. We present a first study of the focal mechanisms of three well-recorded events (S0173a, S0183a, S0235b) to determine the processes dominating in the source region. We infer for all three events a predominantly extensional setting. Our method is adapted to the case of a single, multicomponent receiver and based on fitting waveforms of P and S waves against synthetic seismograms computed for the initial crustal velocity model derived by the InSight team. We explore the uncertainty due to the single-station limitation and find that even data recorded by one station constrains the mechanisms (reasonably) well. For the events in the Cerberus Fossae region (S0173a, S0235b) normal faulting with a relatively steep dipping fault plane is inferred, suggesting an extensional regime mainly oriented E-W to NE-SW. The fault regime in the Orcus Patera region is not determined uniquely because only the P wave can be used for the source inversion. However, we find that the P and weak S waves of the S0183a event show similar polarities to the event S0173, which indicates similar fault regimes.

Published
2021

3. Dernière campagne de forages du projet Construction large bande

Author

Vergne, Jerôme, Beucler, Eric, Charade, Olivier, and MALERBA, Solène

Subjects
Sismologie, RESIF, [SDU.STU.GP] Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph]
Abstract

Gouttières (27), Restinclières (34), Champagny-en-Vanoise (73), Gouzon (23), Béthincourt (55), Méricourt (80)... Voici là un petit aperçu des 12 étapes du "tour de France des forages" de l'année 2020.

Published
2020

4. Detection, Analysis, and Removal of Glitches From InSight's Seismic Data From Mars

Author

Scholz, John-Robert, Widmer-Schnidrig, Rudolf, Davis, Paul, Lognonne, Philippe, Pinot, Baptiste, Garcia, Raphael F., Hurst, Kenneth, Pou, Laurent, Nimmo, Francis, Barkaoui, Salma, De Raucourt, Sebastien, Knapmeyer-Endrun, Brigitte, Knapmeyer, Martin, Orhand-Mainsant, Guenole, Compaire, Nicolas, Cuvier, Arthur, Beucler, Eric, Bonnin, Mickael, Joshi, Rakshit, Sainton, Gregory, Stutzmann, Eleonore, Schimmel, Martin, Horleston, Anna, Bose, Maren, Ceylan, Savas, Clinton, John, Van Driel, Martin, Kawamura, Taichi, Khan, Amir, Stahler, Simon C., Giardini, Domenico, Charalambous, Constantinos, Stott, Alexander E., Pike, William T., Christensen, Ulrich R., Banerdt, W. Bruce, Scholz, John-Robert, Widmer-Schnidrig, Rudolf, Davis, Paul, Lognonne, Philippe, Pinot, Baptiste, Garcia, Raphael F., Hurst, Kenneth, Pou, Laurent, Nimmo, Francis, Barkaoui, Salma, De Raucourt, Sebastien, Knapmeyer-Endrun, Brigitte, Knapmeyer, Martin, Orhand-Mainsant, Guenole, Compaire, Nicolas, Cuvier, Arthur, Beucler, Eric, Bonnin, Mickael, Joshi, Rakshit, Sainton, Gregory, Stutzmann, Eleonore, Schimmel, Martin, Horleston, Anna, Bose, Maren, Ceylan, Savas, Clinton, John, Van Driel, Martin, Kawamura, Taichi, Khan, Amir, Stahler, Simon C., Giardini, Domenico, Charalambous, Constantinos, Stott, Alexander E., Pike, William T., Christensen, Ulrich R., and Banerdt, W. Bruce

Abstract

The instrument package SEIS (Seismic Experiment for Internal Structure) with the three very broadband and three short-period seismic sensors is installed on the surface on Mars as part of NASA's InSight Discovery mission. When compared to terrestrial installations, SEIS is deployed in a very harsh wind and temperature environment that leads to inevitable degradation of the quality of the recorded data. One ubiquitous artifact in the raw data is an abundance of transient one-sided pulses often accompanied by high-frequency spikes. These pulses, which we term glitches, can be modeled as the response of the instrument to a step in acceleration, while the spikes can be modeled as the response to a simultaneous step in displacement. We attribute the glitches primarily to SEIS-internal stress relaxations caused by the large temperature variations to which the instrument is exposed during a Martian day. Only a small fraction of glitches correspond to a motion of the SEIS package as a whole caused by minuscule tilts of either the instrument or the ground. In this study, we focus on the analysis of the glitch+spike phenomenon and present how these signals can be automatically detected and removed from SEIS's raw data. As glitches affect many standard seismological analysis methods such as receiver functions, spectral decomposition and source inversions, we anticipate that studies of the Martian seismicity as well as studies of Mars' internal structure should benefit from deglitched seismic data. Plain Language Summary The instrument package SEIS (Seismic Experiment for Internal Structure) with two fully equipped seismometers is installed on the surface of Mars as part of NASA's InSight Discovery mission. When compared to terrestrial installations, SEIS is more exposed to wind and daily temperature changes that leads to inevitable degradation of the quality of the recorded data. One consequence is the occurrence of a specific type of transient noise that we term glitch. Glitc

Published
2020

5. MSS/1: Single-Station and Single-Event Marsquake Inversion

Author

Drilleau, Melanie, Beucler, Eric, Lognonne, Philippe, Panning, Mark P., Knapmeyer-Endrun, Brigitte, Banerdt, W. Bruce, Beghein, Caroline, Ceylan, Savas, van Driel, Martin, Joshi, Rakshit, Kawamura, Taichi, Khan, Amir, Menina, Sabrina, Rivoldini, Attilio, Samuel, Henri, Stahler, Simon, Xu, Haotian, Bonnin, Mickael, Clinton, John, Giardini, Domenico, Kenda, Balthasar, Lekic, Vedran, Mocquet, Antoine, Murdoch, Naomi, Schimmel, Martin, Smrekar, Suzanne E., Stutzmann, Eleonore, Tauzin, Benoit, Tharimena, Saikiran, Drilleau, Melanie, Beucler, Eric, Lognonne, Philippe, Panning, Mark P., Knapmeyer-Endrun, Brigitte, Banerdt, W. Bruce, Beghein, Caroline, Ceylan, Savas, van Driel, Martin, Joshi, Rakshit, Kawamura, Taichi, Khan, Amir, Menina, Sabrina, Rivoldini, Attilio, Samuel, Henri, Stahler, Simon, Xu, Haotian, Bonnin, Mickael, Clinton, John, Giardini, Domenico, Kenda, Balthasar, Lekic, Vedran, Mocquet, Antoine, Murdoch, Naomi, Schimmel, Martin, Smrekar, Suzanne E., Stutzmann, Eleonore, Tauzin, Benoit, and Tharimena, Saikiran

Abstract

SEIS, the seismometer of the InSight mission, which landed on Mars on 26 November 2018, is monitoring the seismic activity of the planet. The goal of the Mars Structure Service (MSS) is to provide, as a mission product, the first average 1-D velocity model of Mars from the recorded InSight data. Prior to the mission, methodologies have been developed and tested to allow the location of the seismic events and estimation of the radial structure, using surface waves and body waves arrival times, and receiver functions. The paper describes these validation tests and compares the performance of the different algorithms to constrain the velocity model below the InSight station and estimate the 1-D average model over the great circle path between source and receiver. These tests were performed in the frame of a blind test, during which synthetic data were inverted. In order to propagate the data uncertainties on the output model distribution, Bayesian inversion techniques are mainly used. The limitations and strengths of the methods are assessed. The results show the potential of the MSS approach to retrieve the structure of the crust and underlying mantle. However, at this time, large quakes with clear surface waves have not yet been recorded by SEIS, which makes the estimation of the 1-D average seismic velocity model challenging. Additional locatable events, especially at large epicentral distances, and development of new techniques to fully investigate the data, will ultimately provide more constraints on the crust and mantle of Mars.

Published
2020

7. Principles and examples of scientific applications of the HOPTER jumping robot on Phobos

Author

Mege, Daniel, Gurgurewicz, Joanna, Grygorczuk, Jerzy, Wiśniewski, Lukasz, Beucler, Eric, Carrère, Véronique, Dyment, Jérome, Gritsevich, Maria, Langlais, Benoit, Peltoniemi, Jouni, Thornell, Greger, Zubko, Nataliya, Mege, Daniel, Gurgurewicz, Joanna, Grygorczuk, Jerzy, Wiśniewski, Lukasz, Beucler, Eric, Carrère, Véronique, Dyment, Jérome, Gritsevich, Maria, Langlais, Benoit, Peltoniemi, Jouni, Thornell, Greger, and Zubko, Nataliya

Published
2016

8. Planned Products of the Mars Structure Service for the InSight Mission to Mars

Author

UCL - SST/ELI/ELIC - Earth & Climate, Panning, Mark P., Lognonné, Philippe, Bruce Banerdt, W., Garcia, Raphaël, Golombek, Matthew, Kedar, Sharon, Knapmeyer-Endrun, Brigitte, Mocquet, Antoine, Teanby, Nick A., Tromp, Jeroen, Weber, Renee, Beucler, Eric, Blanchette-Guertin, Jean-Francois, Bozdağ, Ebru, Drilleau, Mélanie, Gudkova, Tamara, Hempel, Stefanie, Khan, Amir, Lekić, Vedran, Murdoch, Naomi, Plesa, Ana-Catalina, Rivoldini, Atillio, Schmerr, Nicholas, Ruan, Youyi, Verhoeven, Olivier, Gao, Chao, Christensen, Ulrich, Clinton, John, Dehant, Véronique, Giardini, Domenico, Mimoun, David, Thomas Pike, W., Smrekar, Sue, Wieczorek, Mark, Knapmeyer, Martin, Wookey, James, UCL - SST/ELI/ELIC - Earth & Climate, Panning, Mark P., Lognonné, Philippe, Bruce Banerdt, W., Garcia, Raphaël, Golombek, Matthew, Kedar, Sharon, Knapmeyer-Endrun, Brigitte, Mocquet, Antoine, Teanby, Nick A., Tromp, Jeroen, Weber, Renee, Beucler, Eric, Blanchette-Guertin, Jean-Francois, Bozdağ, Ebru, Drilleau, Mélanie, Gudkova, Tamara, Hempel, Stefanie, Khan, Amir, Lekić, Vedran, Murdoch, Naomi, Plesa, Ana-Catalina, Rivoldini, Atillio, Schmerr, Nicholas, Ruan, Youyi, Verhoeven, Olivier, Gao, Chao, Christensen, Ulrich, Clinton, John, Dehant, Véronique, Giardini, Domenico, Mimoun, David, Thomas Pike, W., Smrekar, Sue, Wieczorek, Mark, Knapmeyer, Martin, and Wookey, James

Abstract

The InSight lander will deliver geophysical instruments to Mars in 2018, including seismometers installed directly on the surface (Seismic Experiment for Interior Structure, SEIS). Routine operations will be split into two services, the Mars Structure Service(MSS) and Marsquake Service (MQS), which will be responsible, respectively, for defining the structure models and seismicity catalogs from the mission. The MSS will deliver a series of products before the landing, during the operations, and finally to the Planetary Data System(PDS) archive. Prior to the mission, we assembled a suite of a priori models of Mars,based on estimates of bulk composition and thermal profiles. Initial models during the mission will rely on modeling surface waves and impact-generated body waves independent of prior knowledge of structure. Later modeling will include simultaneous inversion of seismic observations for source and structural parameters. We use Bayesian inversion techniques to obtain robust probability distribution functions of interior structure parameters. Shallow structure will be characterized using the hammering of the heatflow probe mole, as well as measurements of surface wave ellipticity. Crustal scale structure will be constrained by measurements of receiver function and broadband Rayleigh wave ellipticity measurements. Core interacting body wave phases should be observable above modeled martian noise levels, allowing us to constrain deep structure. Normal modes of Mars should also be observable and can be used to estimate the globally averaged 1D structure, while combination with results from the InSight radio science mission and orbital observations will allow for constraint of deeper structure.

Published
2016

9. Characteristics and possible origins of the seismicity in northwestern France

Author

Beucler, Éric, Bonnin, Mickaël, Hourcade, Céline, Van Vliet-Lanoë, Brigitte, Perrin, Clément, Provost, Ludmila, Mocquet, Antoine, Battaglia, Jean, Geoffroy, Laurent, Steer, Philippe, Le Gall, Bernard, Douchain, Jean-Michel, Fligiel, Damien, Gernigon, Pierrick, Delouis, Bertrand, Perrot, Julie, Mazzotti, Stéphane, Mazet-Roux, Gilles, Lambotte, Sophie, Grunberg, Marc, Vergne, Jérôme, Clément, Christophe, Calais, Éric, Deverchère, Jacques, Longuevergne, Laurent, Duperret, Anne, Roques, Clément, Kaci, Tassadit, and Authemayou, Christine

Subjects
Résif-Epos, Brittany, Auvergne, SCR, Magnitude, Detection, Earthquake, Geophysics. Cosmic physics, QC801-809, Chemistry, QD1-999, Geology, QE1-996.5
Abstract

The macroseismic and instrumental observations accumulated by the Bureau Central Sismologique Français and other national agencies over the last 100 years show that the northwestern part of metropolitan France is affected by an apparently diffuse and moderate intraplate seismicity. Far from any plate boundary, well-documented inherited structures, such as the Armorican shear zone network, the Sillon Houiller, and the normal faults related to the Atlantic ocean margin, likely exert significant control on the regional seismicity pattern. However, in the absence of a clearly measurable strain field, processes other than far-field tectonic stress loading such as erosion, gravitational potential energy, and/or hydraulic loadings can co-exist, but their respective influence on the current seismicity is debated and remains to be fully addressed. Reliable detection/location of low-to-moderate magnitude events is one of the most important challenges in the near future to better understand the processes that control this intraplate seismicity. As shown here for a limited region, this issue can be achieved positively, thanks to the new Résif-Epos network, in conjunction with sophisticated algorithms for both earthquakes’ detection and discrimination.

Published
2021
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14. Seis: overview, deployment and first science on the ground.

Author

Lognonné, Philippe, Banerdt, William B., Pike, W.Tom, Giardini, Domenico, Banfield, Don, Christensen, Ulrich, Bierwirth, Marco, Calcutt, Simon, Clinton, John, Kedar, Sharon, Garcia, Raphael, de Raucourt, Sebastien, Hurst, Ken, Kawamura, Taichi, Mimoun, David, Panning, Mark, Spiga, Aymeric, Zweifel, Peter, Beucler, Eric, and Verdier, Nicolas

Published
2019

16. The atmosphere of Mars as observed by InSight

Author

Banfield, Don, Spiga, Aymeric, Newman, Claire, Forget, François, Lemmon, Mark, Lorenz, Ralph, Murdoch, Naomi, Viudez-Moreiras, Daniel, Pla-Garcia, Jorge, Garcia, Raphael F., Logonne, Philippe, Karatekin, Ozgur, Perrin, Clement, Martire, Leo, Teanby, Nicholas, Van Hove, Bart, Maki, Justin N., Kenda, Balthasar, Mueller, Nils T., Rodriguez, Sebastian, Kawamura, Taichi, McClean, John B., Stott, Alexander E., Charalambous, Constantinos, Millour, Ehouran, Johnson, Catherine L., Mittelholz, Anna, Maattanen, Anni, Lewis, Stephen, Clinton, John, Stahler, Simon C., Ceylan, Savas, Giardini, Domenico, Warren, Tristram, Pike, William T., Daubar, Ingrid, Golombek, Matthew, Rolland, Lucie, Widmer-Schnidrig, Rudolf, Mimoun, David, Beucler, Eric, Jacob, Alice, Lucas, Antoine, Baker, Mariah, Ansan, Veronique, Hurst, Kenneth, Mora-Sotomayor, Luis, Navarro, Sara, Torres, Josefina, Lepinette, Alain, Molina, Antonio, Marin-Jimenez, Mercedes, Gomez-Elvira, Javier, Peinado, Veronica, Rodriguez-Manfredi, Jose-Antonio, Carcich, Brian T., Sackett, Stephen, Russell, Christopher T., Spohn, Tilman, Smrekar, Suzanne E., Banerdt, W. Bruce, Banfield, Don, Spiga, Aymeric, Newman, Claire, Forget, François, Lemmon, Mark, Lorenz, Ralph, Murdoch, Naomi, Viudez-Moreiras, Daniel, Pla-Garcia, Jorge, Garcia, Raphael F., Logonne, Philippe, Karatekin, Ozgur, Perrin, Clement, Martire, Leo, Teanby, Nicholas, Van Hove, Bart, Maki, Justin N., Kenda, Balthasar, Mueller, Nils T., Rodriguez, Sebastian, Kawamura, Taichi, McClean, John B., Stott, Alexander E., Charalambous, Constantinos, Millour, Ehouran, Johnson, Catherine L., Mittelholz, Anna, Maattanen, Anni, Lewis, Stephen, Clinton, John, Stahler, Simon C., Ceylan, Savas, Giardini, Domenico, Warren, Tristram, Pike, William T., Daubar, Ingrid, Golombek, Matthew, Rolland, Lucie, Widmer-Schnidrig, Rudolf, Mimoun, David, Beucler, Eric, Jacob, Alice, Lucas, Antoine, Baker, Mariah, Ansan, Veronique, Hurst, Kenneth, Mora-Sotomayor, Luis, Navarro, Sara, Torres, Josefina, Lepinette, Alain, Molina, Antonio, Marin-Jimenez, Mercedes, Gomez-Elvira, Javier, Peinado, Veronica, Rodriguez-Manfredi, Jose-Antonio, Carcich, Brian T., Sackett, Stephen, Russell, Christopher T., Spohn, Tilman, Smrekar, Suzanne E., and Banerdt, W. Bruce

Abstract

The atmosphere of Mars is thin, although rich in dust aerosols, and covers a dry surface. As such, Mars provides an opportunity to expand our knowledge of atmospheres beyond that attainable from the atmosphere of the Earth. The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) lander is measuring Mars’s atmosphere with unprecedented continu- ity, accuracy and sampling frequency. Here we show that InSight unveils new atmospheric phenomena at Mars, especially in the higher-frequency range, and extends our understanding of Mars’s meteorology at all scales. InSight is uniquely sensitive to large- scale and regional weather and obtained detailed in situ coverage of a regional dust storm on Mars. Images have enabled high- altitude wind speeds to be measured and revealed airglow—faint emissions produced by photochemical reactions—in the middle atmosphere. InSight observations show a paradox of aeolian science on Mars: despite having the largest recorded Martian vortex activity and dust-devil tracks close to the lander, no visible dust devils have been seen. Meteorological measurements have pro- duced a catalogue of atmospheric gravity waves, which included bores (soliton-like waves). From these measurements, we have discovered Martian infrasound and unexpected similarities between atmospheric turbulence on Earth and Mars. We suggest that the observations of Mars’s atmosphere by InSight will be key for prediction capabilities and future exploration.

17. The atmosphere of Mars as observed by InSight

Author

Banfield, Don, Spiga, Aymeric, Newman, Claire, Forget, François, Lemmon, Mark, Lorenz, Ralph, Murdoch, Naomi, Viudez-Moreiras, Daniel, Pla-Garcia, Jorge, Garcia, Raphael F., Logonne, Philippe, Karatekin, Ozgur, Perrin, Clement, Martire, Leo, Teanby, Nicholas, Van Hove, Bart, Maki, Justin N., Kenda, Balthasar, Mueller, Nils T., Rodriguez, Sebastian, Kawamura, Taichi, McClean, John B., Stott, Alexander E., Charalambous, Constantinos, Millour, Ehouran, Johnson, Catherine L., Mittelholz, Anna, Maattanen, Anni, Lewis, Stephen, Clinton, John, Stahler, Simon C., Ceylan, Savas, Giardini, Domenico, Warren, Tristram, Pike, William T., Daubar, Ingrid, Golombek, Matthew, Rolland, Lucie, Widmer-Schnidrig, Rudolf, Mimoun, David, Beucler, Eric, Jacob, Alice, Lucas, Antoine, Baker, Mariah, Ansan, Veronique, Hurst, Kenneth, Mora-Sotomayor, Luis, Navarro, Sara, Torres, Josefina, Lepinette, Alain, Molina, Antonio, Marin-Jimenez, Mercedes, Gomez-Elvira, Javier, Peinado, Veronica, Rodriguez-Manfredi, Jose-Antonio, Carcich, Brian T., Sackett, Stephen, Russell, Christopher T., Spohn, Tilman, Smrekar, Suzanne E., Banerdt, W. Bruce, Banfield, Don, Spiga, Aymeric, Newman, Claire, Forget, François, Lemmon, Mark, Lorenz, Ralph, Murdoch, Naomi, Viudez-Moreiras, Daniel, Pla-Garcia, Jorge, Garcia, Raphael F., Logonne, Philippe, Karatekin, Ozgur, Perrin, Clement, Martire, Leo, Teanby, Nicholas, Van Hove, Bart, Maki, Justin N., Kenda, Balthasar, Mueller, Nils T., Rodriguez, Sebastian, Kawamura, Taichi, McClean, John B., Stott, Alexander E., Charalambous, Constantinos, Millour, Ehouran, Johnson, Catherine L., Mittelholz, Anna, Maattanen, Anni, Lewis, Stephen, Clinton, John, Stahler, Simon C., Ceylan, Savas, Giardini, Domenico, Warren, Tristram, Pike, William T., Daubar, Ingrid, Golombek, Matthew, Rolland, Lucie, Widmer-Schnidrig, Rudolf, Mimoun, David, Beucler, Eric, Jacob, Alice, Lucas, Antoine, Baker, Mariah, Ansan, Veronique, Hurst, Kenneth, Mora-Sotomayor, Luis, Navarro, Sara, Torres, Josefina, Lepinette, Alain, Molina, Antonio, Marin-Jimenez, Mercedes, Gomez-Elvira, Javier, Peinado, Veronica, Rodriguez-Manfredi, Jose-Antonio, Carcich, Brian T., Sackett, Stephen, Russell, Christopher T., Spohn, Tilman, Smrekar, Suzanne E., and Banerdt, W. Bruce

Abstract

The atmosphere of Mars is thin, although rich in dust aerosols, and covers a dry surface. As such, Mars provides an opportunity to expand our knowledge of atmospheres beyond that attainable from the atmosphere of the Earth. The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) lander is measuring Mars’s atmosphere with unprecedented continu- ity, accuracy and sampling frequency. Here we show that InSight unveils new atmospheric phenomena at Mars, especially in the higher-frequency range, and extends our understanding of Mars’s meteorology at all scales. InSight is uniquely sensitive to large- scale and regional weather and obtained detailed in situ coverage of a regional dust storm on Mars. Images have enabled high- altitude wind speeds to be measured and revealed airglow—faint emissions produced by photochemical reactions—in the middle atmosphere. InSight observations show a paradox of aeolian science on Mars: despite having the largest recorded Martian vortex activity and dust-devil tracks close to the lander, no visible dust devils have been seen. Meteorological measurements have pro- duced a catalogue of atmospheric gravity waves, which included bores (soliton-like waves). From these measurements, we have discovered Martian infrasound and unexpected similarities between atmospheric turbulence on Earth and Mars. We suggest that the observations of Mars’s atmosphere by InSight will be key for prediction capabilities and future exploration.

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