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Attenuation Characteristics of High Frequency Seismic Waves in Southern India

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dc.contributor.author Sivaram,K. en_US
dc.contributor.author Utpal, Saikia en_US
dc.contributor.author Kanna, Nagaraju en_US
dc.contributor.author Kumar, Dinesh en_US
dc.date.accessioned 2019-07-01T05:37:14Z
dc.date.available 2019-07-01T05:37:14Z
dc.date.issued 2017-07 en_US
dc.identifier.citation Pure and Applied Geophysics, 174(7),2523-2545. en_US
dc.identifier.issn 0033-4553 en_US
dc.identifier.issn 1420-9136 en_US
dc.identifier.uri http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/3333
dc.identifier.uri https://doi.org/10.1007/s00024-017-1574-2 en_US
dc.description.abstract We present a systematic study of seismic attenuation and its related Q structure derived from the spectral analysis of P-, S-waves in the southern India. The study region is separated into parts of EDC (Eastern Dharwar Craton), Western Dharwar Craton (WDC) and Southern Granulite Terrain (SGT). The study is carried out in the frequency range 1–20 Hz, using a single-station spectral ratio technique. We make use of about 45 earthquakes, recorded in a network of about 32 broadband 3-component seismograph-stations, having magnitudes (M L) varying from 1.6 to 4.5, to estimate the average seismic body wave attenuation quality factors; Q P and Q S. Their estimated average values are observed to be fitting to the power law form of Q = Q 0 f n. The averaged power law relations for Southern Indian region (as a whole) are obtained as Q P = (95 ± 1.12)f (1.32±0.01); Q S = (128 ± 1.84)f (1.49±0.01). Based on the stations and recorded local earthquakes, for parts of EDC, WDC and SGT, the average power law estimates are obtained as: Q P = (97 ± 5)f (1.40±0.03), Q S = (116 ± 1.5)f (1.48±0.01) for EDC region; Q P = (130 ± 7)f (1.20±0.03), Q S = (103 ± 3)f (1.49±0.02) for WDC region; Q P = (68 ± 2)f (1.4±0.02), Q S = (152 ± 6)f (1.48±0.02) for SGT region. These estimates are weighed against coda Q (Q C) estimates, using the coda decay technique, which is based on a weak backscattering of S-waves. A major observation in the study of body wave analysis is the low body wave Q (Q 0 < 200), moderately high value of the frequency-exponent, ‘n’ (>0.5) and Q S/Q P ≫ 1, suggesting lateral stretches of dominant scattering mode of seismic wave propagation. This primarily could be attributed to possible thermal anomalies and spread of partially fluid-saturated rock-masses in the crust and upper mantle of the southern Indian region, which, however, needs further laboratory studies. Such physical conditions might partly be correlated to the active seismicity and intraplate tectonism, especially in SGT and EDC regions, as per the observed low-Q P and Q S values. Additionally, the enrichment of coda waves and significance of scattering mechanisms is evidenced in our observation of Q C > Q S estimates. Lapse time study shows Q C values increasing with lapse time. High Q C values at 40 s lapse times in WDC indicate that it may be a relatively stable region. In the absence of detailed body wave attenuation studies in this region, the frequency dependent Q relationships developed here are useful for the estimation of earthquake source parameters of the region. Also, these relations may be used for the simulation of earthquake strong ground motions which are required for the estimation of seismic hazard, geotechnical and retrofitting analysis of critical structures in the region. en_US
dc.language.iso en en_US
dc.publisher Springer Nature en_US
dc.subject Attenuation Characteristics en_US
dc.subject High Frequency Seismic en_US
dc.subject Waves in Southern India en_US
dc.subject Seismic attenuation en_US
dc.subject Quality factor Q en_US
dc.subject body waves coda waves en_US
dc.subject Southern India en_US
dc.subject 2017 en_US
dc.title Attenuation Characteristics of High Frequency Seismic Waves in Southern India en_US
dc.type Article en_US
dc.contributor.department Dept. of Earth and Climate Science en_US
dc.identifier.sourcetitle Pure and Applied Geophysics en_US
dc.publication.originofpublisher Foreign en_US


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