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2. Impact-Seismic Investigations of the InSight Mission

Author

Daubar, Ingrid, Lognonné, Philippe, Teanby, Nicholas A., Miljkovic, Katarina, Stevanović, Jennifer, Vaubaillon, Jeremie, Kenda, Balthasar, Kawamura, Taichi, Clinton, John, Lucas, Antoine, Drilleau, Melanie, Yana, Charles, Collins, Gareth S., Banfield, Don, Golombek, Matthew, Kedar, Sharon, Schmerr, Nicholas, Garcia, Raphael, Rodriguez, Sebastien, Gudkova, Tamara, May, Stephane, Banks, Maria, Maki, Justin, Sansom, Eleanor, Karakostas, Foivos, Panning, Mark, Fuji, Nobuaki, Wookey, James, van Driel, Martin, Lemmon, Mark, Ansan, Veronique, Böse, Maren, Stähler, Simon, Kanamori, Hiroo, Richardson, James, Smrekar, Suzanne, and Banerdt, W. Bruce

Published
2018
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3. One Martian Year of Seismic Monitoring of Mars by InSight: SEIS Results and Perspectives for the Extended Mission

Author

Lognonne, P., Banerdt, B., Giardini, D., Panning, M., Pike, T., Antonangeli, D., Ballestra, J., Banfield, D., Beghein, C., Beucler, E., Bowles, Neil, Bozdag, E., Ceylan, S., Charalambous, C., Christensen, U., Clinton, J., Compaire, Nicolas, Collins, G., Dahmen, N., Daubar, I., van Driel, M, Drilleau, M., Fernando, B., Froment, M., Garcia, R., Irving, J., Khan, A., Kawamura, T., Kedar, S., Kenda, B., Knapmeyer-Endrun, B., Lorenz, R. D., Margerin, L., Martire, L., Michaut, C., Mimoun, D., Murdoch, N., Nimmo, F., Perrin, C, Plesa, Ana-Catalina, Schmerr, N., Scholz, J.-R., Smrekar, S., Sollberger, D., Spiga, A., Stähler, S., Stutzmann, Éléonore, Teanby, N., Tromp, J., Weber, R., Wieczorek, M., Wojcicka, N., Xu, H., Agard, C., Barrett, Elizabeth, Berenguer, J.L., Böse, Maren, Conejero, V., Horleston, A., Hurst, K., Ferrier, C., Fuji, N., Gabsi, T., Gaudin, E., Jaillant, B., Jullien, A., Karakostas, F., Labrot, P., Meunier, F., Pardo, C., ten Pierick, J., Plasman, Matthieu, Rochas, L., Sauron, A., Sainton, G., Xu, Z., Yana, Charles, and InSight/SEIS, Science Team

Subjects
Mars, SEIS, InSight
Published
2021

5. First Focal Mechanisms of Marsquakes.

Author

Brinkman, Nienke, Stähler, Simon C., Giardini, Domenico, Schmelzbach, Cédric, Khan, Amir, Jacob, Alice, Fuji, Nobuaki, Perrin, Clement, Lognonné, Philippe, Beucler, Eric, Böse, Maren, Ceylan, Savas, Charalambous, Constantinos, Clinton, John F., van Driel, Martin, Euchner, Fabian, Horleston, Anna, Kawamura, Taichi, Knapmeyer‐Endrun, Brigitte, and Mainsant, Guenole

Subjects
PLATE tectonics, STRUCTURAL geology, ELYSIUM, INVERSION (Geophysics), SEISMOGRAMS
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. Plain Language Summary: As time passes, the mysterious interior of Mars is slowly being unraveled due to the detection and analysis of Marsquakes recorded with a seismograph carried by the InSight lander. Close to 400 Marsquakes have so far been identified, yet only a handful of those show similarities to earthquakes. Those earth‐like events are located near the Cerberus Fossae and Orcus Patera regions. We take advantage of the similarity between Marsquakes and earthquakes and apply a methodology developed for earthquake characterization before seismic recorders became abundant on Earth. We find that the Marsquakes in these source regions are dominated by extensional rather than compressing features. This is important information to further understand what causes Marsquakes. Key Points: We infer the tectonic setting in Cerberus Fossae on Mars by seismic source inversionWe present a robust inversion strategy for single‐station moment tensor inversionThree Marsquakes recorded by InSight reveal a predominantly normal faulting regime [ABSTRACT FROM AUTHOR]

Published
2021
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6. Companion guide to the Marsquake catalog from InSight, sols 0–478: Data content and non-seismic events

Author

Ceylan, Savas, Clinton, John Francis, Giardini, Domenico, Böse, Maren, Charalambous, Constantinos, van Driel, Martin, Horleston, Anna, Kawamura, Taichi, Khan, Amir, Orhand‐Mainsant, Guénolé, Scholz, John‐Robert, Stähler, Simon Christian, Euchner, Fabian, Banerdt, William B., Lognonne, Philippe, Banfield, Don, Beucler, Éric, Garcia, Raphaël F., Kedar, Sharon, Panning, Mark P., Pike, William T., Smrekar, Suzanne E., Spiga, Aymeric, Dahmen, Nikolaj Louis, Hurst, Kenneth, Stott, Alexander E., Lorenz, Ralph D., Schimmel, Martin, Stutzmann, Eléonore, ten Pierick, Jan, Conejero, Vincent, Pardo, Constanza, and Perrin, Clément

Subjects
Non-seismic signals, 13. Climate action, Mars, Data inventory, InSight mission, Marsquakes
Abstract

The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission landed on the surface of Mars on November 26, 2018. One of the scientific instruments in the payload that is essential to the mission is the SEIS package (Seismic Experiment for Interior Structure) which includes a very broadband and a short period seismometer. More than one year since the landing, SEIS continues to be fully operational and has been collecting an exceptional data set which contains not only the signals of seismic origins, but also noise and artifacts induced by the martian environment, the hardware on the ground that includes the seismic sensors, and the programmed operational activities of the lander. Many of these non-seismic signals will be unfamiliar to the scientific community. In addition, many of these signals have signatures that may resemble seismic events either or both in time and frequency domains. Here, we report our observations of common non-seismic signals as seen during the first 478 sols of the SEIS data, i.e. from landing until the end of March 2020. This manuscript is intended to provide a guide to scientists who use the data recorded on SEIS, detailing the general attributes of the most commonly observed non-seismic features. It will help to clarify the characteristics of the seismic dataset for future research, and to avoid misinterpretations when searching for marsquakes., Physics of the Earth and Planetary Interiors, 310, ISSN:0031-9201, ISSN:1872-7395

7. Seasonal seismic activity on Mars

Author

Knapmeyer, Martin, Stähler, Simon Christian, Daubar, Ingrid J., Forget, François, Spiga, Aymeric, Pierron, T., van Driel, Martin, Banfield, Don, Hauber, Ernst, Grott, Matthias, Muller, N., Perrin, Clément, Jacob, Alice, Lucas, Antoine, Knapmeyer-Endrun, Brigitte, Newman, Claire, Panning, Mark P., Weber, Renee, Calef, Fred J., Böse, Maren, Ceylan, Savas, Charalambous, Constantinos, Clinton, John Francis, Dahmen, Nikolaj, Giardini, Domenico, Horleston, Anna, Kawamura, Taichi, Khan, Amir, Mainsant, Guénolé, Plasman, Matthieu, Lemmon, Mark, Lorenz, Ralph, Pike, W.T., Scholz, John‐Robert, Lognonne, Philippe, and Banerdt, Bruce

Subjects
Phobos, seasonal seismic activity, 13. Climate action, Elysium Planitia, Mars, InSight
Abstract

The rate of occurrence of High Frequency (HF) marsquakes, as recorded by InSight at Homestead Hollow, Elysium Planitia, increased after about Ls =33°, and ceased almost completely by Ls =187°, following an apparently seasonal variation with a peak rate near aphelion. We define seismic rate models based on the declination of the Sun, annual solar tides, and the annual CO2 cycle as measured by atmospheric pressure. Evaluation of Akaike weights and evidence ratios shows that the declination of the Sun is the most likely, and the CO2 cycle the least likely driver of this seismic activity, although the discrimination is weak, and the occurrence of a few events in August 2020 is in favor for a triggering by CO2 ice load. We also show that no periodicity related to Phobos' orbit is present in the HF event sequence. Event rate forecasts are presented to allow further discrimination of candidate mechanisms from future observations., Earth and Planetary Science Letters, 576, ISSN:0012-821X, ISSN:1385-013X

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

Author

L. Pou, Martin Knapmeyer, S. Barkaoui, Taichi Kawamura, Eric Beucler, Amir Khan, Baptiste Pinot, Bruce Banerdt, Rakshit Joshi, Brigitte Knapmeyer-Endrun, John Clinton, Raphaël F. Garcia, Mickael Bonnin, Arthur Cuvier, Grégory Sainton, Constantinos Charalambous, Savas Ceylan, Sebastien de Raucourt, Eléonore Stutzmann, Simon Stähler, John-Robert Scholz, Paul M. Davis, Anna Horleston, Guenolé Orhand-Mainsant, Nicolas Compaire, Francis Nimmo, Ulrich R. Christensen, Martin van Driel, Domenico Giardini, William T. Pike, Martin Schimmel, Maren Böse, Alexander E. Stott, K. Hurst, Rudolf Widmer-Schnidrig, Philippe Lognonné, Agence Nationale de la Recherche (France), Swiss Space Office, Schimmel, Martin [0000-0003-2601-4462], Schimmel, Martin, Widmer‐Schnidrig, Rudolf, 2 Black Forest Observatory, Institute of Geodesy Stuttgart University Stuttgart Germany, Davis, Paul, 3 Department of Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA, Lognonné, Philippe, 4 Université de Paris, Institut de physique du globe de Paris, CNRS Paris France, Pinot, Baptiste, 5 Institut Supérieur de l'Aéronautique et de l'Espace SUPAERO Toulouse France, Garcia, Raphaël F., Hurst, Kenneth, 6 Jet Propulsion Laboratory California Institute of Technology Pasadena USA, Pou, Laurent, 7 Department of Earth and Planetary Sciences University of California Santa Cruz Santa Cruz CA USA, Nimmo, Francis, Barkaoui, Salma, de Raucourt, Sébastien, Knapmeyer‐Endrun, Brigitte, 8 Bensberg Observatory University of Cologne Bergisch Gladbach Germany, Knapmeyer, Martin, 9 DLR Institute of Planetary Research Berlin Germany, Orhand‐Mainsant, Guénolé, Compaire, Nicolas, Cuvier, Arthur, 10 Laboratoire de Planétologie et Géodynamique, Université de Nantes, Université d'Angers Nantes France, Beucler, Éric, Bonnin, Mickaël, Joshi, Rakshit, 1 Max Planck Institute for Solar System Research Göttingen Germany, Sainton, Grégory, Stutzmann, Eléonore, 11 Institute of Earth Sciences Jaume Almera ‐ CSIC Barcelona Spain, Horleston, Anna, 12 School of Earth Sciences University of Bristol Bristol UK, Böse, Maren, 13 Swiss Seismological Service (SED) ETH Zurich Zurich, Switzerland, Ceylan, Savas, 14 Institute of Geophysics ETH Zürich Zurich Switzerland, Clinton, John, van Driel, Martin, Kawamura, Taichi, Khan, Amir, Stähler, Simon C., Giardini, Domenico, Charalambous, Constantinos, 16 Department of Electrical and Electronic Engineering Imperial College London London UK, Stott, Alexander E., Pike, William T., Christensen, Ulrich R., Banerdt, W. Bruce, and Institut Supérieur de l'Aéronautique et de l'Espace - ISAE-SUPAERO (FRANCE)

Subjects
Seismometer, 010504 meteorology & atmospheric sciences, lcsh:Astronomy, glitches, seismometer, Mars, Environmental Science (miscellaneous), 010502 geochemistry & geophysics, 01 natural sciences, Glitches, lcsh:QB1-991, Autre, Broadband, 0105 earth and related environmental sciences, InSight, Data processing, removal, lcsh:QE1-996.5, Mars Exploration Program, lcsh:Geology, General Earth and Planetary Sciences, InSight Mars Seismogramme Datenbearbeitung, Mars seismology, Removal, Geology, Seismology, data processing
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”. Glitches show up in the recorded data as one‐sided pulses and have strong implications for the typical seismic data analysis. Glitches can be understood as step‐like changes in the acceleration sensed by the seismometers. We attribute them 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 whole SEIS instrument. In this study, we focus on the detection and removal of glitches and anticipate that studies of the Martian seismicity as well as studies of Mars's internal structure should benefit from deglitched seismic data., Key Points: Glitches due to steps in acceleration significantly complicate seismic records on Mars. Glitches are mostly due to relaxations of thermal stresses and instrument tilt. We provide a toolbox to automatically detect and remove glitches., Centre National d'Etudes Spatiales (CNES), InSight PSP Program, Agence Nationale de la Recherche http://dx.doi.org/10.13039/501100001665, ANR‐19‐CE31‐0008‐08

Published
2020

9. Companion guide to the marsquake catalog from InSight, Sols 0–478: Data content and non-seismic events.

Author

Ceylan, Savas, Clinton, John F., Giardini, Domenico, Böse, Maren, Charalambous, Constantinos, Driel, Martin van, Horleston, Anna, Kawamura, Taichi, Khan, Amir, Orhand-Mainsant, Guenolé, Scholz, John-Robert, Stähler, Simon C., Euchner, Fabian, Banerdt, William B., Lognonné, Philippe, Banfield, Don, Beucler, Eric, Garcia, Raphaël F., Kedar, Sharon, and Panning, Mark P.

Subjects
*SCIENTIFIC apparatus & instruments, *COLLOIDS, *SCIENTIFIC community, *INSIGHT, *DATA recorders & recording
Abstract

The InSight (In terior Exploration using S eismic I nvestigations, G eodesy and H eat T ransport) mission landed on the surface of Mars on November 26, 2018. One of the scientific instruments in the payload that is essential to the mission is the SEIS package (Seismic Experiment for Interior Structure) which includes a very broadband and a short period seismometer. More than one year since the landing, SEIS continues to be fully operational and has been collecting an exceptional data set which contains not only the signals of seismic origins, but also noise and artifacts induced by the martian environment, the hardware on the ground that includes the seismic sensors, and the programmed operational activities of the lander. Many of these non-seismic signals will be unfamiliar to the scientific community. In addition, many of these signals have signatures that may resemble seismic events either or both in time and frequency domains. Here, we report our observations of common non-seismic signals as seen during the first 478 sols of the SEIS data, i.e. from landing until the end of March 2020. This manuscript is intended to provide a guide to scientists who use the data recorded on SEIS, detailing the general attributes of the most commonly observed non-seismic features. It will help to clarify the characteristics of the seismic dataset for future research, and to avoid misinterpretations when searching for marsquakes. • This paper is a summary of the InSight data from Mars, mainly focusing on the seismic data set. • We describe the signals of non-seismic origins that potentially can cause misinterpretations as marsquakes. • We outline the common features in the data such as artifacts and patterns for future reference that may be unfamiliar to the scientific community. [ABSTRACT FROM AUTHOR]

Published
2021
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