about
sameAs
An elusive blind-thrust fault beneath metropolitan los angelesA global view of the lithosphere-asthenosphere boundary.Global risk of big earthquakes has not recently increasedSeismic Velocity and Density Jumps Across the 410- and 660-Kilometer Discontinuities.Mantle fault zone beneath Kilauea Volcano, Hawaii.Extent, duration and speed of the 2004 Sumatra-Andaman earthquake imaged by the Hi-Net array.Deformation on nearby faults induced by the 1999 Hector Mine earthquake.Earthquake dynamics. Supershear rupture in a M(w) 6.7 aftershock of the 2013 Sea of Okhotsk earthquake.Methods for determining infrasound phase velocity direction with an array of line sensors.Local near instantaneously dynamically triggered aftershocks of large earthquakes.A high-frequency secondary event during the 2004 Parkfield earthquake.Imaging the lithosphere-asthenosphere boundary beneath the Pacific usingSSwaveform modelingRupture evolution of the 2006 Java tsunami earthquake and the possible role of splay faultsEvidence for Mogi doughnut behavior in seismicity preceding small earthquakes in southern CaliforniaRupture details of the 28 March 2005 Sumatra Mw 8.6 earthquake imaged with teleseismic P wavesWetting dynamics of a collapsing fluid holeAutomated detection and cataloging of global explosive volcanism using the International Monitoring System infrasound networkCommunity Fault Model (CFM) for Southern CaliforniaSource Spectral Properties of Small to Moderate Earthquakes in Southern KansasSeismic and geodetic evidence for extensive, long-lived fault damage zonesInfrasound events detected with the Southern California Seismic NetworkSystematic relocation of seismicity on Hawaii Island from 1992 to 2009 using waveform cross correlation and cluster analysisCharacteristics of deep (≥13 km) Hawaiian earthquakes and Hawaiian earthquakes west of 155.55°WReport on the August 2012 Brawley Earthquake Swarm in Imperial Valley, Southern CaliforniaA California Statewide Three-Dimensional Seismic Velocity Model from Both Absolute and Differential TimesSource mechanism of small long-period events at Mount St. Helens in July 2005 using template matching, phase-weighted stacking, and full-waveform inversionStress-induced upper crustal anisotropy in southern CaliforniaSeismic migration processing ofP-SVconverted phases for mantle discontinuity structure beneath the Snake River Plain, western United StatesStandards for Documenting Finite‐Fault Earthquake Rupture ModelsStress-drop heterogeneity within tectonically complex regions: a case study of San Gorgonio Pass, southern CaliforniaAfterslip Enhanced Aftershock Activity During the 2017 Earthquake Sequence Near Sulphur Peak, IdahoVariations in solar wind fractionation as seen by ACE/SWICS and the implications for genesis mission resultsSlip segmentation and slow rupture to the trench during the 2015, Mw 8.3 Illapel, Chile earthquakeInsights into the mechanism of intermediate-depth earthquakes from source properties as imaged by back projection of multiple seismic phasesSlow waves in young basaltsAxi-symmetric Earth models and inner-core anisotropyThe fossil roots of continentsSeismic imaging of upper-mantle structure with new evidence for a 520-km discontinuitySeismic evidence for small-scale heterogeneity throughout the Earth's mantleGlobal mapping of topography on the 660-km discontinuity
P50
Q33854269-EAC94678-7699-4265-91F4-7F345BF945B4Q34977513-A7CF6E28-3D18-404C-B850-1CFAE289FCEEQ35735122-FB3E40E7-33CD-4207-AA13-65E5419BE26FQ41689063-0A4AA17B-9198-4B96-89F6-82F6E601FBBBQ42036295-07E7659D-4A83-4820-A74E-9ED6F2570BC2Q43548388-43ED5F33-7E20-4C68-840C-71A29AC82CE8Q46175225-495BC07F-F39A-4FBE-ABCA-0D10DABF76FBQ46276478-88A55C87-D4C2-4A11-8E20-97BBD555F8CCQ46514428-F2A9D518-3F52-451C-A09F-CCE65E563A40Q46892602-750F99C6-ADBA-46BE-8669-0700AB03026EQ50656621-C4F2F81D-F2B5-4218-A32D-4BDD70CCC943Q54160815-C07A9FA3-FA0F-48B1-B09D-9B99F2BBDEADQ55982951-6B44BE38-D344-47DD-9F91-8828D48AC7A4Q56814435-F2FB8C9A-5C17-4186-94BD-7D83847B35FDQ57311379-2ADAF304-2BF6-4C18-9EFE-B71CDA56C49DQ57427777-2114E8FC-358C-42F4-94D8-DD5968CB3102Q57588383-D5E48845-2E36-443D-831D-1E7A7DE0CF38Q57725699-82CAAE10-E342-4887-846E-8F57220890FBQ57819085-2BBDA0C2-EB1D-405C-A46F-EA23760B45D8Q57819174-1B9ED0DD-2566-485D-AC2F-8DBA2481013DQ57819186-07E97C8C-CAE9-49C0-9990-9281E7EB963FQ57836921-CCA2381E-FFA6-499F-A80A-FCBF742DD3F4Q57836953-6F3D10E7-2DB3-410C-8AC7-8E4BC6E6A811Q57869569-AC900BD5-2B06-4E9D-BEAB-1DF7A9C5B450Q57876679-64A5F1D1-8CBA-4555-97CE-9B05635F35C5Q57877273-B14C5838-CC50-4685-8045-B9CFF4A5A108Q57982979-FD3F9A7A-ECA1-473F-BF58-8D1A3C8BF142Q57983005-DCC9597D-AA25-4FA8-8168-DE18F3FCD3EAQ58196077-05DBCC48-1D27-4F1A-87A3-B108B5BBA7E3Q58196103-A9DFAE24-1C71-4D14-8BF9-5288A0945130Q58311879-C4F5485B-BE9B-4EBE-9E5A-A42D7F54AD4EQ58318205-4D9D4049-DD7B-424B-BE00-A808A997E084Q58471996-82B5EA23-C229-45AC-AA5B-B596EF2C1EB8Q58494111-B44301DC-2AA1-4B11-B200-3E48290167B0Q58977558-6A06A5A6-4E6E-46AA-8C22-16D2CF21FD48Q58986271-F80444C9-9CEA-49B6-A8DE-F5D7A8A62520Q58990679-FA42797E-1712-4394-92D8-448A7EB9090DQ59083388-4C2A77F8-20D8-4A4F-B1C0-BC0C4EA73C6FQ59092345-D74A2A01-712D-4088-9476-9A1C4DFB6820Q59092563-ACC56C2C-5C4A-4AD8-B20E-39A15AB5DA79
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-2992-7630
@en
name
P. Shearer
@ast
P. Shearer
@nl
Peter M. Shearer
@en
Peter M. Shearer
@es
type
label
P. Shearer
@ast
P. Shearer
@nl
Peter M. Shearer
@en
Peter M. Shearer
@es
altLabel
P M Shearer
@en
P. M. Shearer
@en
P. Shearer
@en
P.M. Shearer
@en
Peter M Shearer
@en
Peter M. Shearer
@ast
Peter Shearer
@en
Shearer P M
@en
Shearer P. M.
@en
Shearer P.M.
@en
prefLabel
P. Shearer
@ast
P. Shearer
@nl
Peter M. Shearer
@en
Peter M. Shearer
@es
P1053
K-5247-2012
P1960
qFtteaQAAAAJ
P21
P31
P3829
P496
0000-0002-2992-7630