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Toward earthquake early warning in northern California (2007)

Wurman, Gilead ; Allen, Richard M. ; Lombard, Peter

American Geophysical Union

In: Journal of Geophysical Research. 2007; 112(B8): B08311. Published 2007 Aug 22. doi: 10.1029/2006jb004830.

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Publication Date: 2007-08-22

Print ISSN: 0148-0227

Electronic ISSN: 2156-2202

Topics: Geosciences

Published by American Geophysical Union

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Magnitude scaling relations from P-waves in southern California (2007)

Tsang, Louisa L. H. ; Allen, Richard M. ; Wurman, Gilead

American Geophysical Union

In: Geophysical Research Letters. 2007; 34(19): Published 2007 Oct 05. doi: 10.1029/2007gl031077.

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Publication Date: 2007-10-05

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by American Geophysical Union

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Shell tectonics: A mechanical model for strike-slip displacement on Europa (2012)

Rhoden, Alyssa Rose ; Wurman, Gilead ; Huff, Eric M. ; [et al.]

Elsevier

In: Icarus : International Journal of Solar System Studies. 2012; 218(1): 297-307. Published 2012 Mar 01. doi: 10.1016/j.icarus.2011.12.015.

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Publication Date: 2012-03-01

Print ISSN: 0019-1035

Electronic ISSN: 1090-2643

Topics: Physics

Published by Elsevier

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The Effect of Sonic Booms on Earthquake Warning Systems (2011)

Wurman, Gilead ; Price, Michael J. ; Haering, Edward A, Jr.

In: CASI

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Publication Date: 2019-07-13

Description: Several aerospace companies are designing quiet supersonic business jets for service over the United States. These aircraft have the potential to increase the occurrence of mild sonic booms across the country. This leads to interest among earthquake warning (EQW) developers and the general seismological community in characterizing the effect of sonic booms on seismic sensors in the field, their potential impact on EQW systems, and means of discriminating their signatures from those of earthquakes. The SonicBREWS project (Sonic Boom Resistant Earthquake Warning Systems) is a collaborative effort between Seismic Warning Systems, Inc. (SWS) and NASA Dryden Flight Research Center. This project aims to evaluate the effects of sonic booms on EQW sensors. The study consists of exposing high-sample-rate (1000 sps) triaxial accelerometers to sonic booms with overpressures ranging from 10 to 600 Pa in the free field and the built environment. The accelerometers record the coupling of the sonic boom to the ground and surrounding structures, while microphones record the acoustic wave above ground near the sensor. Sonic booms are broadband signals with more high-frequency content than earthquakes. Even a 1000 sps accelerometer will produce a significantly aliased record. Thus the observed peak ground velocity is strongly dependent on the sampling rate, and increases as the sampling rate is reduced. At 1000 sps we observe ground velocities that exceed those of P-waves from M〈sub〉L 〈/sub〉 3 earthquakes at local distances, suggesting that sonic booms are not negligible for EQW applications. We present the results of several experiments conducted under SonicBREWS showing the effects of typical-case low amplitude sonic booms and worst-case high amplitude booms. We show the effects of various sensor placements and sensor array geometries. Finally, we suggest possible avenues for discriminating sonic booms from earthquakes for the purposes of EQW.

Keywords: Geosciences (General)

Type: DFRC-E-DAA-TN3366 , Seismological Society of America''s Annual Meeting; Apr 13, 2011; Memphis, TX; United States

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High-Quality Seismic Observations of Sonic Booms (2011)

Haering, Edward A., Jr. ; Wurman, Gilead ; Price, Michael J.

In: CASI

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Publication Date: 2019-07-13

Description: The SonicBREWS project (Sonic Boom Resistant Earthquake Warning Systems) is a collaborative effort between Seismic Warning Systems, Inc. and NASA Dryden Flight Research Center. This project aims to evaluate the effects of sonic booms on Earthquake Warning Systems in order to prevent such systems from experiencing false alarms due to sonic booms. The airspace above the Antelope Valley, California includes the High Altitude Supersonic Corridor and the Black Mountain Supersonic Corridor. These corridors are among the few places in the US where supersonic flight is permitted, and sonic booms are commonplace in the Antelope Valley. One result of this project is a rich dataset of high-quality accelerometer records of sonic booms which can shed light on the interaction between these atmospheric phenomena and the solid earth. Nearly 100 sonic booms were recorded with low-noise triaxial MEMS accelerometers recording 1000 samples per second. The sonic booms had peak overpressures ranging up to approximately 10 psf and were recorded in three flight series in 2010 and 2011. Each boom was recorded with up to four accelerometers in various array configurations up to 100 meter baseline lengths, both in the built environment and the free field. All sonic booms were also recorded by nearby microphones. We present the results of the project in terms of the potential for sonic-boom-induced false alarms in Earthquake Warning Systems, and highlight some of the interesting features of the dataset.

Keywords: Geosciences (General)

Type: DFRC-372 , S31D-2272 , DFRC-E-DAA-TN4480 , AGU Fall Meeting 2011; Dec 05, 2011 - Dec 09, 2011; San Francisco, CA; United States

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Shell Tectonics: A Mechanical Model for Strike-slip Displacement on Europa (2012)

Manga, Michael ; Wurman, Gilead ; Rhoden, Alyssa Rose ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We introduce a new mechanical model for producing tidally-driven strike-slip displacement along preexisting faults on Europa, which we call shell tectonics. This model differs from previous models of strike-slip on icy satellites by incorporating a Coulomb failure criterion, approximating a viscoelastic rheology, determining the slip direction based on the gradient of the tidal shear stress rather than its sign, and quantitatively determining the net offset over many orbits. This model allows us to predict the direction of net displacement along faults and determine relative accumulation rate of displacement. To test the shell tectonics model, we generate global predictions of slip direction and compare them with the observed global pattern of strike-slip displacement on Europa in which left-lateral faults dominate far north of the equator, right-lateral faults dominate in the far south, and near-equatorial regions display a mixture of both types of faults. The shell tectonics model reproduces this global pattern. Incorporating a small obliquity into calculations of tidal stresses, which are used as inputs to the shell tectonics model, can also explain regional differences in strike-slip fault populations. We also discuss implications for fault azimuths, fault depth, and Europa's tectonic history.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC-E-DAA-TN8921 , Icarus; 218; 1; 297-307

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