TY - JOUR
T1 - Seismic topographic scattering in the context of GW detector site selection
AU - Coughlin, M.
AU - Harms, J.
PY - 2012/4/7
Y1 - 2012/4/7
N2 - In this paper, we present a calculation of seismic scattering from irregular surface topography in the Born approximation. Based on US-wide topographic data, we investigate topographic scattering at specific sites to demonstrate its impact on Newtonian-noise estimation and subtraction for future gravitational-wave detectors. We find that topographic scattering at a comparatively flat site in Oregon would not pose any problems, whereas scattering at a second site in Montana leads to significant broadening of wave amplitudes in wavenumber space that would make Newtonian-noise subtraction very challenging. Therefore, it is shown that topographic scattering should be included as criterion in the site-selection process of future low-frequency gravitational-wave detectors.
AB - In this paper, we present a calculation of seismic scattering from irregular surface topography in the Born approximation. Based on US-wide topographic data, we investigate topographic scattering at specific sites to demonstrate its impact on Newtonian-noise estimation and subtraction for future gravitational-wave detectors. We find that topographic scattering at a comparatively flat site in Oregon would not pose any problems, whereas scattering at a second site in Montana leads to significant broadening of wave amplitudes in wavenumber space that would make Newtonian-noise subtraction very challenging. Therefore, it is shown that topographic scattering should be included as criterion in the site-selection process of future low-frequency gravitational-wave detectors.
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U2 - 10.1088/0264-9381/29/7/075004
DO - 10.1088/0264-9381/29/7/075004
M3 - Article
AN - SCOPUS:84858692175
SN - 0264-9381
VL - 29
JO - Classical and Quantum Gravity
JF - Classical and Quantum Gravity
IS - 7
M1 - 075004
ER -