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Variation with age of anisotropy under oceans, from great circle surface waves
Author(s) -
Journet B.,
Jobert N.
Publication year - 1982
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/gl009i003p00179
Subject(s) - great circle , geology , anisotropy , love wave , isotropy , rayleigh wave , polarization (electrochemistry) , surface wave , variation (astronomy) , geophysics , inversion (geology) , mantle (geology) , geodesy , seismology , wave propagation , longitudinal wave , physics , geometry , optics , mechanical wave , mathematics , chemistry , astrophysics , tectonics
Global great circle measurements of regionalized mantle Love wave phase velocities are interpreted in terms of regional models. The same study had been made by J.J. Lévêque (1980) for Rayleigh waves, and the resulting models for the two oceanic regions of different ages are used as a basis for comparison : the observed Love wave dispersion cannot be explained with these models if isotropic. The models obtained by inversion of Love wave data are compared with the models mentioned; the discrepancy appearing in the 250km depth range between the velocities β H and β V of respectively SH and SV waves is indicative of polarization anisotropy. Moreover, we put forward a significant variation from young to old oceans : the difference between β H and β V is of the order of 1 % for the former, compared to 3% for the latter. This variation can bring information about the behaviour of upper mantle materials in connection with the motion of oceanic plates.