2023 - Research.com Earth Science in France Leader Award
2008 - Fellow of American Geophysical Union (AGU)
Michel Campillo mostly deals with Seismology, Seismic noise, Scattering, Surface wave and Optics. The Seismology study combines topics in areas such as Slip, Amplitude, Rayleigh wave and Geodesy. The concepts of his Seismic noise study are interwoven with issues in Volcano, Seismic velocity, Noise, Noise and Microseism.
His Scattering study integrates concerns from other disciplines, such as Acoustics, Computational physics, Mathematical analysis and Geophysics. His Surface wave study incorporates themes from Velocity gradient, Scale, Group velocity, Love wave and Rayleigh scattering. Michel Campillo interconnects Field, Statistical physics, Correlation and Cross-correlation in the investigation of issues within Optics.
His scientific interests lie mostly in Seismology, Slip, Seismic noise, Scattering and Seismic wave. Michel Campillo combines subjects such as Amplitude and Surface wave, Rayleigh wave with his study of Seismology. His Surface wave research integrates issues from Wave propagation and Cross-correlation.
His research integrates issues of Geodetic datum, Geodesy, Episodic tremor and slip and Mechanics, Instability in his study of Slip. His research investigates the connection with Seismic noise and areas like Geophysics which intersect with concerns in Seismogram. His work carried out in the field of Scattering brings together such families of science as Acoustics, Computational physics and Radiative transfer.
Seismology, Scattering, Acoustics, Subduction and Seismic noise are his primary areas of study. His studies deal with areas such as Ambient noise level and Template matching as well as Seismology. His study in Scattering is interdisciplinary in nature, drawing from both Computational physics, Seismic wave, Surface wave, Radiative transfer and North Anatolian Fault.
His Surface wave research focuses on Rayleigh wave in particular. His Subduction research incorporates themes from Slip, Pore water pressure and Petrology. The study incorporates disciplines such as Cross-spectrum, Wavelet, Wavelet transform and Time series in addition to Seismic noise.
His primary areas of study are Seismology, Subduction, Aseismic slip, Petrology and Slip. His work in the fields of Seismology, such as Coda, intersects with other areas such as High temporal resolution. Michel Campillo has included themes like Passive seismic, Scattering, Seismic wave and Sensitivity in his Coda study.
The various areas that he examines in his Aseismic slip study include Fault slip, San andreas fault, Seismic cycle and Seismic velocity. He has researched Petrology in several fields, including Transition zone, Mantle, Oceanic crust, Classification of discontinuities and Hotspot. His biological study spans a wide range of topics, including Surface displacement, Tectonics, Plate tectonics and Scaling.
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High-resolution surface-wave tomography from ambient seismic noise.
Nikolai M. Shapiro;Michel Campillo;Laurent Stehly;Michael H. Ritzwoller.
Emergence of broadband Rayleigh waves from correlations of the ambient seismic noise.
N.M. Shapiro;Michel Campillo.
Geophysical Research Letters (2004)
Long-range correlations in the diffuse seismic coda.
Michel Campillo;Anne Paul.
Postseismic Relaxation Along the San Andreas Fault at Parkfield from Continuous Seismological Observations
Florent Brenguier;Florent Brenguier;Michel Campillo;Céline Hadziioannou;Nikolai Shapiro.
Towards forecasting volcanic eruptions using seismic noise
Florent Brenguier;Nikolai M. Shapiro;Michel Campillo;Valérie Ferrazzini.
Nature Geoscience (2008)
A study of the seismic noise from its long-range correlation properties
L. Stehly;L. Stehly;Michel Campillo;N.M. Shapiro.
Journal of Geophysical Research (2006)
Toward Forecasting Volcanic Eruptions using Seismic Noise
F. Brenguier;N. Shapiro;M. Campillo;V. Ferrazzini.
arXiv: Geophysics (2007)
Recovering the Green’s function from field-field correlations in an open scattering medium (L)
Arnaud Derode;Eric Larose;Mickael Tanter;Julien de Rosny.
Journal of the Acoustical Society of America (2003)
DIFFRACTION OF P, SV AND RAYLEIGH WAVES BY TOPOGRAPHIC FEATURES: A BOUNDARY INTEGRAL FORMULATION
Francisco J. Sánchez-Sesma;Michel Campillo.
Bulletin of the Seismological Society of America (1991)
3-D surface wave tomography of the Piton de la Fournaise volcano using seismic noise correlations
Florent Brenguier;Florent Brenguier;Nikolai M. Shapiro;Michel Campillo;Alexandre Nercessian.
Geophysical Research Letters (2007)
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