Direct seismic energy modeling and application to the 1979 Imperial Valley earthquake

The seismic energy associated with an earthquake has two representations: the work of the seismic waves done against a distant surface or a fault representation. For a fault subject to slip‐weakening friction, the energy density is the difference between an elastostatic work and a work density spent...

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Published in	Geophysical research letters Vol. 30; no. 5; pp. 2.1 - n/a
Main Authors	Favreau, Pascal, Archuleta, Ralph J.
Format	Journal Article
Language	English
Published	Washington, DC Blackwell Publishing Ltd 01.03.2003 American Geophysical Union
Subjects	Earth sciences Earth, ocean, space Earthquakes, seismology Exact sciences and technology Internal geophysics United States California Imperial Valley models dynamics maps simulation seismic energy kinematics earthquakes North America
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Abstract	The seismic energy associated with an earthquake has two representations: the work of the seismic waves done against a distant surface or a fault representation. For a fault subject to slip‐weakening friction, the energy density is the difference between an elastostatic work and a work density spent in fracture and relaxation. We apply this to a dynamic simulation of the 1979 Imperial Valley earthquake, whose initial conditions are inspired by previous kinematic studies. A large area of the fault has a negative energy density, and the emission of energy is roughly confined to small parts of the fault with large positive energy density. We compute the work of the seismic waves against the surface of a sphere enclosing the source, and we find the same amount of energy. We produce a map of energy directivity that shows that 40% of the energy passes through only 6.5% of the sphere.
AbstractList	The seismic energy associated with an earthquake has two representations: the work of the seismic waves done against a distant surface or a fault representation. For a fault subject to slip‐weakening friction, the energy density is the difference between an elastostatic work and a work density spent in fracture and relaxation. We apply this to a dynamic simulation of the 1979 Imperial Valley earthquake, whose initial conditions are inspired by previous kinematic studies. A large area of the fault has a negative energy density, and the emission of energy is roughly confined to small parts of the fault with large positive energy density. We compute the work of the seismic waves against the surface of a sphere enclosing the source, and we find the same amount of energy. We produce a map of energy directivity that shows that 40% of the energy passes through only 6.5% of the sphere.
Author	Archuleta, Ralph J. Favreau, Pascal
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References_xml	– reference: Moczo, P., J. Kristek, R. Archuleta, and L. Halada, 3D staggered-grid finite-difference modeling with volume harmonic and arithmetic averaging of elastic moduli and denstities, Bull. Seismol. Soc. Am, in press, 2003. – reference: Aki, K., Characteristics of barriers on an earthquake fault, J. Geophys. Res., 84, 6140-6148, 1979. – reference: Bouchon, M., The state of stress of some faults of the San Andreas system as inferred from near-fied strong motion data, J. Geophys. Res., 102, 11,731-11,744, 1997. – reference: Madariaga, R., Dynamics of an expanding circular crack, Bull. Seismol. Soc. Am., 3, 639-666, 1976. – reference: Peyrat, S., K. B. Olsen, and R. Madariaga, Dynamic modeling of the 1992 Landers earthquake, J. Geophys. Res., 106, 26,467-26,482, 2001. – reference: Aki, K., Generation of G-waves from the Niigata earthquake of June 16, 1964, 2, Estimation of earthquake movement, released energy and stress-strain drop from G-wave spectrum, Bull. Earthquake Res. Inst. Univ. Tokyo, 44, 23-88, 1966. – reference: Archuleta, R., A faulting model for the 1979 Imperial Valley earthquake, J. Geophys. Res., 89, 4559-4585, 1984. – reference: Choy, G. L., and J. Boatwright, Global patterns of radiated seismic energy and apparent stress, J. Geophys. Res., 100, 18,205-18,228, 1995. – reference: Kostrov, B. V., Seismic moment and energy of earthquakes and seismic flow of rock, Izv. Earth Phys, 1, 23-40, 1974. – reference: Kanamori, H., J. Mori, E. Hauksson, T. H. Heaton, L. K. Hutton, and L. Jones, Determination of earthquake energy release and ML using TERRAscope, Bull. Seismol. Soc. Am., 83, 330-346, 1993. – reference: Andrews, D. J., Test of two methods for faulting in finite-difference calculation, Bull. Seismol. Soc. Am., 89, 931-937, 1999. – reference: Gutenberg, B., and C. F. Richter, Earthquake magnitude, intensity, and acceleration, Bull. Seismol. Soc. 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Am. – volume: 44 start-page: 23 year: 1966 end-page: 88 article-title: Generation of G‐waves from the Niigata earthquake of June 16, 1964, 2, Estimation of earthquake movement, released energy and stress‐strain drop from G‐wave spectrum publication-title: Bull. Earthquake Res. Inst. Univ. Tokyo – volume: 106 start-page: 26,467 year: 2001 end-page: 26,482 article-title: Dynamic modeling of the 1992 Landers earthquake publication-title: J. Geophys. Res. – year: 2003 ident: e_1_2_7_12_1 article-title: 3D staggered‐grid finite‐difference modeling with volume harmonic and arithmetic averaging of elastic moduli and denstities publication-title: Bull. Seismol. Soc. Am – volume: 83 start-page: 330 year: 1993 ident: e_1_2_7_9_1 article-title: Determination of earthquake energy release and M L using TERRAscope publication-title: Bull. Seismol. Soc. Am. – volume: 44 start-page: 23 year: 1966 ident: e_1_2_7_2_1 article-title: Generation of G‐waves from the Niigata earthquake of June 16, 1964, 2, Estimation of earthquake movement, released energy and stress‐strain drop from G‐wave spectrum publication-title: Bull. Earthquake Res. Inst. Univ. Tokyo – volume: 89 start-page: 931 year: 1999 ident: e_1_2_7_4_1 article-title: Test of two methods for faulting in finite‐difference calculation publication-title: Bull. Seismol. Soc. Am. doi: 10.1785/BSSA0890040931 – volume: 3 start-page: 639 year: 1976 ident: e_1_2_7_11_1 article-title: Dynamics of an expanding circular crack publication-title: Bull. Seismol. Soc. Am. doi: 10.1785/BSSA0660030639 – ident: e_1_2_7_13_1 doi: 10.1029/2001JB000205 – ident: e_1_2_7_3_1 doi: 10.1029/JB084iB11p06140 – ident: e_1_2_7_7_1 doi: 10.1029/95JB01969 – ident: e_1_2_7_5_1 doi: 10.1029/JB089iB06p04559 – ident: e_1_2_7_6_1 doi: 10.1029/97JB00623 – volume: 1 start-page: 23 year: 1974 ident: e_1_2_7_10_1 article-title: Seismic moment and energy of earthquakes and seismic flow of rock publication-title: Izv. Earth Phys – volume: 3 start-page: 163 year: 1942 ident: e_1_2_7_8_1 article-title: Earthquake magnitude, intensity, and acceleration publication-title: Bull. Seismol. Soc. Am. doi: 10.1785/BSSA0320030163
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SubjectTerms	Earth sciences Earth, ocean, space Earthquakes, seismology Exact sciences and technology Internal geophysics
Title	Direct seismic energy modeling and application to the 1979 Imperial Valley earthquake
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