Ultra broad band seismology on InterMarsNet

Very broad band seismometers, which are included in the baseline of the InterMarsNet payload cover the whole frequency band from tidal frequencies up to 50 Hz. By using the results of field tests performed on Earth with the deployment scenario of the InterMarsNet seismic experiment, it is shown that...

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Veröffentlicht in:	Planetary and space science 1996-11, Vol.44 (11), p.1237,1241-1239,1249
Hauptverfasser:	Lognonné, Philippe, Beyneix, Jeannine Gagnepain, Banerdt, W.Bruce, Cacho, Stéphane, Karczewski, Jean François, Morand, Michel
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Sprache:	eng
Schlagworte:	Earth Sciences Geophysics Planetology Sciences of the Universe
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container_end_page	1239,1249
container_issue	11
container_start_page	1237,1241
container_title	Planetary and space science
container_volume	44
creator	Lognonné, Philippe Beyneix, Jeannine Gagnepain Banerdt, W.Bruce Cacho, Stéphane Karczewski, Jean François Morand, Michel
description	Very broad band seismometers, which are included in the baseline of the InterMarsNet payload cover the whole frequency band from tidal frequencies up to 50 Hz. By using the results of field tests performed on Earth with the deployment scenario of the InterMarsNet seismic experiment, it is shown that it should probaly be possible to reach very low micro-seismic noise level, possibly less than a spectral amplitude of 10 9 ms −2 Hz − 1 2 on the vertical component. Despite the fact that only three stations will be available for the network, sufficient information should be available in the three-component short period records to determine the location of Marsquake foci and the origin time to a level that will enable studies of the seismicity, interior velocity structure, and tectonic activity of the planet. Despite the fact that the most current signals will be recorded in the frequency band 10mHz–10 Hz, it is shown that the detection of a quake of moment 10 18 Nm or the stack of the InterMarsNet records of quakes with a moment greater than 10 17 Nm will allow normal mode frequency measurement in the range 5–20mHz for a noise amplitude of 10 −9 ms −2 Hz − 1 2 . Observation in the range 3–5 mHz cannot also be ruled out. These normal mode frequencies will have a high scientific return for determining the deep Mars structure. At longer periods, the detection of the tides of Phobos will provide information on the deep internal structure even if no strong quakes are recorded. It is shown that the amplitude of the Phobos tide fundamental after the analysis of a 2 year time series from a single station, for a realistic and conservative estimate of the long period noise may be measured with a precision of 1%. For less noise scenario, and/or by using the stack of all the records, information from the higher Phobos tidal harmonics will also be obtained.
doi_str_mv	10.1016/S0032-0633(96)00083-9
format	Article
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Despite the fact that the most current signals will be recorded in the frequency band 10mHz–10 Hz, it is shown that the detection of a quake of moment 10 18 Nm or the stack of the InterMarsNet records of quakes with a moment greater than 10 17 Nm will allow normal mode frequency measurement in the range 5–20mHz for a noise amplitude of 10 −9 ms −2 Hz − 1 2 . Observation in the range 3–5 mHz cannot also be ruled out. These normal mode frequencies will have a high scientific return for determining the deep Mars structure. At longer periods, the detection of the tides of Phobos will provide information on the deep internal structure even if no strong quakes are recorded. It is shown that the amplitude of the Phobos tide fundamental after the analysis of a 2 year time series from a single station, for a realistic and conservative estimate of the long period noise may be measured with a precision of 1%. 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Despite the fact that the most current signals will be recorded in the frequency band 10mHz–10 Hz, it is shown that the detection of a quake of moment 10 18 Nm or the stack of the InterMarsNet records of quakes with a moment greater than 10 17 Nm will allow normal mode frequency measurement in the range 5–20mHz for a noise amplitude of 10 −9 ms −2 Hz − 1 2 . Observation in the range 3–5 mHz cannot also be ruled out. These normal mode frequencies will have a high scientific return for determining the deep Mars structure. At longer periods, the detection of the tides of Phobos will provide information on the deep internal structure even if no strong quakes are recorded. It is shown that the amplitude of the Phobos tide fundamental after the analysis of a 2 year time series from a single station, for a realistic and conservative estimate of the long period noise may be measured with a precision of 1%. 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By using the results of field tests performed on Earth with the deployment scenario of the InterMarsNet seismic experiment, it is shown that it should probaly be possible to reach very low micro-seismic noise level, possibly less than a spectral amplitude of 10 9 ms −2 Hz − 1 2 on the vertical component. Despite the fact that only three stations will be available for the network, sufficient information should be available in the three-component short period records to determine the location of Marsquake foci and the origin time to a level that will enable studies of the seismicity, interior velocity structure, and tectonic activity of the planet. Despite the fact that the most current signals will be recorded in the frequency band 10mHz–10 Hz, it is shown that the detection of a quake of moment 10 18 Nm or the stack of the InterMarsNet records of quakes with a moment greater than 10 17 Nm will allow normal mode frequency measurement in the range 5–20mHz for a noise amplitude of 10 −9 ms −2 Hz − 1 2 . Observation in the range 3–5 mHz cannot also be ruled out. These normal mode frequencies will have a high scientific return for determining the deep Mars structure. At longer periods, the detection of the tides of Phobos will provide information on the deep internal structure even if no strong quakes are recorded. It is shown that the amplitude of the Phobos tide fundamental after the analysis of a 2 year time series from a single station, for a realistic and conservative estimate of the long period noise may be measured with a precision of 1%. 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subjects	Earth Sciences Geophysics Planetology Sciences of the Universe
title	Ultra broad band seismology on InterMarsNet
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