Earthquake detection through computationally efficient similarity searchGeophysics. A rogue earthquake off Sumatra.The cape mendocino, california, earthquakes of april 1992: subduction at the triple junction.How many great earthquakes should we expect?Strong ground motion prediction using virtual earthquakes.Low-frequency earthquakes in Shikoku, Japan, and their relationship to episodic tremor and slip.Stress drops of induced and tectonic earthquakes in the central United States are indistinguishable.Non-volcanic tremor and low-frequency earthquake swarms.Seismicity remotely triggered by the magnitude 7.3 landers, california, earthquake.The nature of the landers-mojave earthquake line.A scaling law for slow earthquakes.USGS scientists open to change.Variability in earthquake stress drop and apparent stressA Unified Source Model for the 1906 San Francisco EarthquakeShallow dynamic overshoot and energetic deep rupture in the 2011 Mw 9.0 Tohoku-Oki earthquakeSeismic evidence for an earthquake nucleation phaseMechanism diversity of the loma prieta aftershocks and the mechanics of mainshock-aftershock interactionThe 1906 San Francisco Earthquake a Century Later: Introduction to the Special SectionConstraints on the source parameters of low-frequency earthquakes on the San Andreas FaultDeep low-frequency earthquakes in tremor localize to the plate interface in multiple subduction zonesAn autocorrelation method to detect low frequency earthquakes within tremorBridging the gap between seismically and geodetically detected slow earthquakesComplex evolution of transient slip derived from precise tremor locations in western Shikoku, JapanMechanism of deep low frequency earthquakes: Further evidence that deep non-volcanic tremor is generated by shear slip on the plate interfaceHigh-resolution subduction zone seismicity and velocity structure beneath Ibaraki Prefecture, JapanHigh-resolution subducting-slab structure beneath northern Honshu, Japan, revealed by double-difference tomographyVariabilities in probabilistic seismic hazard maps for natural and induced seismicity in the central and eastern United StatesDeep low-frequency earthquakes in tectonic tremor along the Alaska-Aleutian subduction zoneA man of magnitudeMachine learning improves forecasts of aftershock locationsSeismic velocity reductions caused by the 2003 Tokachi-Oki earthquakeFull waveform earthquake location: Application to seismic streaks on the Calaveras Fault, CaliforniaDepth constraints on nonlinear strong ground motion from the 2004 Parkfield earthquakeNonlinear strong ground motion in the ML5.4 Chittenden earthquake: Evidence that preexisting damage increases susceptibility to further damageSeismicity During the Initial Stages of the Guy-Greenbrier, Arkansas, Earthquake SequenceOn scaling of fracture energy and stress drop in dynamic rupture models: Consequences for near-source ground-motionsWaveform analysis of the 1999 Hector Mine foreshock sequenceSlow Earthquakes and Nonvolcanic TremorStrong Shaking Predicted in Tokyo From an Expected M7+ Itoigawa-Shizuoka EarthquakeTectonic tremor and LFEs on a reverse fault in Taiwan
P50
Q27335439-AC9712E0-0242-42E7-8D84-96295C828388Q34274669-064323BA-2DA9-42E7-999C-DEBD51C0E659Q34674842-15CD9190-CE92-4CAD-83EE-F6F5F35FA964Q35734909-8F8B7E73-F707-4F48-AB31-C12873015032Q39265305-18D9C442-1500-4179-804B-3A1C8CFDCC7CQ40307708-5B3CE9A7-371E-4874-83E2-14A344BEEC15Q41212271-51B2CF54-5BD9-4796-8866-8E41A70A3AC9Q42011356-8F3AFA2A-1A13-44AB-803C-642E437633FEQ42066928-C91F588E-54EF-4F45-9BB9-A9131CBDCAF2Q46678411-9B79E44E-360C-4B72-B783-F1B70E2139BFQ50276834-741BA611-58F0-452F-B306-301C32C960C3Q51146800-0791B11A-8CBE-4E8B-908F-896BBE710C7FQ55033442-A5E9E8E9-570E-4177-89C9-77A65EEBA32DQ56030839-F8C076B0-0681-46B9-B952-1071407DB461Q57108810-9774CE1A-28F7-4277-8909-356A3B424877Q57132455-CC1794AF-0B04-4336-B083-1A2DC3A133FDQ57133924-0629974D-D6B5-44B4-BF36-76EB940DCB49Q57820191-7624793D-DD1B-4890-BAAC-6FE393203037Q57820225-118BBF33-2E6B-4427-AD5D-9FCD0E152C30Q57820314-6F857746-74C7-47FA-99AC-C56581E40937Q57820321-F96C99DB-99B3-4831-B749-8CBC21D3F002Q57820324-BF8C6F11-220C-4787-8305-4D7426778110Q57820329-0C25744A-FB02-47BB-9C51-FB0229E201BAQ57820332-8B725366-6A94-43E2-96E5-4211D5992A8CQ57820339-AA2AEADC-0A6C-4F8B-A2D2-A613FEE0C0EBQ57820343-77A82597-D25B-474B-A39A-7E14E9A4436BQ57864778-4B859C16-B4FA-4496-B10B-0B52CEB6539BQ57866566-24675913-A817-4A7D-B06C-55703032CE76Q59033753-DF94BDB8-C392-4A80-BA96-0B4F08E5B0C6Q59087888-318A6BE9-B6F1-41BA-B511-F01B449F0087Q59746676-5F13FFC5-882E-4BB9-8642-AD0EA1E6D229Q59746677-E463063E-173B-4A51-B05C-32CED76D22B6Q59746678-AFE15E97-239D-4773-A8DD-F85661653B47Q59746681-21B3EFD4-F996-4D24-97FC-D9F874A9C43BQ59754990-0FCE16C9-78F7-4E40-B9E8-09CFAB3E1930Q59789437-A5C86B56-CD0D-4B6C-8187-781BFEFEBBFCQ59797104-B9F5635D-4DB9-41A9-A4C6-65AC52E1B9A2Q60162536-85299C37-EAB2-449B-90D3-7F672392EFFBQ60634075-67A6E494-D624-4A7B-926A-69DF51B72F6BQ60700249-E2BC2E68-115E-484B-99CF-D665B3B8EBB7
P50
description
American seismologist
@en
seismoloog
@nl
sismolojiste american
@lfn
usona eismologo
@eo
name
Gregory Beroza
@ast
Gregory Beroza
@de
Gregory Beroza
@es
Gregory Beroza
@fr
Gregory Beroza
@it
Gregory Beroza
@nl
Gregory C. Beroza
@en
type
label
Gregory Beroza
@ast
Gregory Beroza
@de
Gregory Beroza
@es
Gregory Beroza
@fr
Gregory Beroza
@it
Gregory Beroza
@nl
Gregory C. Beroza
@en
altLabel
G C Beroza
@en
G. C. Beroza
@en
G.C. Beroza
@en
Greg Beroza
@en
Gregory Beroza
@en
Gregory C Beroza
@en
prefLabel
Gregory Beroza
@ast
Gregory Beroza
@de
Gregory Beroza
@es
Gregory Beroza
@fr
Gregory Beroza
@it
Gregory Beroza
@nl
Gregory C. Beroza
@en
P106
P214
P244
P21
P213
0000 0001 3834 0500
P214
P244
no2010057553
P31
P569
1959-10-10T00:00:00Z