Characteristics of surface wave Green’s function for anisotropic ambient seismic noise field — a case study in Limburg, the Netherlands

Koley, Soumen; Bulten, Henk Jan; Van Den Brand, Jo; Bader, Maria; Linde, Frank; Beker, Mark

doi:10.3997/1365-2397.n0018

Article (Scientific journals)

Characteristics of surface wave Green’s function for anisotropic ambient seismic noise field — a case study in Limburg, the Netherlands

Koley, Soumen; Bulten, Henk Jan; Van Den Brand, Jo et al.

2019 • In First Break, 37 (4), p. 83 - 90

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https://hdl.handle.net/2268/339087

DOI
10.3997/1365-2397.n0018

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Keywords :

Geophysics

Disciplines :

Physics

Author, co-author :

Koley, Soumen ; Université de Liège - ULiège > Département d'astrophysique, géophysique et océanographie (AGO) > Ondes gravitationnelles ; National Institute of Subatomic Physics, Netherlands

Bulten, Henk Jan; National Institute of Subatomic Physics, Netherlands

Van Den Brand, Jo; National Institute of Subatomic Physics, Netherlands

Bader, Maria; National Institute of Subatomic Physics, Netherlands

Linde, Frank; National Institute of Subatomic Physics, Netherlands

Beker, Mark; Innoseis B.V., Netherlands

Language :

English

Title :

Characteristics of surface wave Green’s function for anisotropic ambient seismic noise field — a case study in Limburg, the Netherlands

Publication date :

2019

Journal title :

First Break

ISSN :

0263-5046

eISSN :

1365-2397

Publisher :

EAGE Publishing BV

Volume :

Issue :

Pages :

83 - 90

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 31 December 2025

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Bibliography

Acernese, F., Amico, P., Arnaud, N., Babusci, D., Barillé, R., Barone, F., Barsotti, L., Barsuglia, M., Beauville, F. and Bizouard, M. [2004]. Properties of seismic noise at the Virgo site. Classical and Quantum Gravity, 21, S433.
Acernese, F., Antonucci, F., Aoudia, S., Arun, K., Astone, P., Ballardin, G., Barone, F., Barsuglia, M., Bauer, T.S. and Beker, M. [2010]. Measurements of superattenuator seismic isolation by Virgo interferometer. Astroparticle Physics, 33, 182–189.
Bensen, G., Ritzwoller, M., Barmin, M., Levshin, A, Lin, F., Moschetti, M., Shapiro, N. and Yang, Y. [2007]. Processing seismic ambient noise data to obtain reliable broad-band surface wave dispersion measurements. Geophysical Journal International, 169, 3, 1239–1260.
Campillo, M. and Paul, A. [2003]. Long-range correlations in the diffuse seismic coda. Science, 299, 5606, 547–549.
Claerbout, J.F. [1968]. Synthesis of a layered medium from its acoustic transmission response. Geophysics, 33, 2, pp. 264–269.
Freise, A., Chelkowski, S., Hild, S., Del Pozzo, W., Perreca, A. and Vecchio, A. [2009]. Triple Michelson interferometer for a third-generation gravitational wave detector. Classical and Quantum Gravity, 26, 8, 085012.
Freise, A., Hild, S., Somiya, K., Strain, K.A., Vicere, A., Barsuglia, M. and Chelkowski, S. [2011]. Optical detector topology for third-generation gravitational wave observatories. General Relativity and Gravitation, 43, 2, 537–567.
Hild, S., Abernathy, M., Acernese, F., Amaro-Seoane, P., Andersson, N., Arun, K., Barone, F., Barr, B., Barsuglia, M. and Beker, M. [2011]. Sensitivity studies for third-generation gravitational wave observatories. Classical and Quantum Gravity, 28, 9, 094013.
Koley, S., Campman, X., Bader, M., Bulten, H., Brand, J., Linde, F. and Beker, M. [2018]. Seismic noise characterization at a potential site for the Einstein telescope underground gravitational wave detector. 80th EAGE Conference and Exhibition.
L.S. Collaboration and V. Collaboration [2018]. Gwtc-1: A gravitational-wave transient catalog of compact binary mergers observed by LIGO and VIRGO during the first and second observing runs. arXiv preprint arXiv:1811.12907.
Levshin, A., Pisarenko, V. and Pogrebinsky, G. [1972]. Frequency-time analysis of oscillations. Annales de Geophysique, 28, 211.
Puntoro, M., Abernathy, M., Acernese, F., Allen, B., Andersson, N., Arun, K., Barone, F., Barr, B., Barsuglia, M. and Beker, M. [2010]. The Einstein telescope: a third-generation gravitational wave observatory. Classical and Quantum Gravity, 27, 19, p. 194002.
Shapiro, N.M. and Campillo, M. [2004]. Emergence of broadband Rayleigh waves from correlations of the ambient seismic noise. Geophysical Research Letters, 31, 7.
Wapenaar, K. [2004]. Retrieving the elastodynamic Green’s function of an arbitrary inhomogeneous medium by cross correlation. Physical review letters, 93, 25, 254301.
Wapenaar, K. and Fokkema, J. [2006]. Green’s function representations for seismic interferometry. Geophysics, 71, 4, SI33–SI46.