Frequency-dependent delay time analysis for Bhutan Himalaya
- Indian Institute of Technology Kharagpur, Indian Institute of Technology Kharagpur, Geology & Geophysics, Kharagpur, India (sayanbala2015@kgpian.iitkgp.ac.in)
In this study, we have evaluated the scattering nature of the crust beneath the Bhutan Himalaya, located in the eastern part of the Himalayan arc. We have analysed high-quality waveforms of 566 events having magnitude (ML) below 6, recorded by broadband stations of the GANSSER network operated by the Swiss Seismological Service at ETH Zurich from Jan, 2013 to Nov, 2014. We have investigated the peak delay time (tpd), defined as the time interval between the initial S-wave appearance and the peak amplitude of its envelope, for the frequency ranges of 4–8, 6–12, 8–16 and 12–24 Hz. Initially, we have analysed frequency-dependent nature of tpd at 9 stations (BHE01, BHE09, BHE13, BHN02, BHN06, BHN11, BHW01, BHW10 and BHW16). The observed values of Bfreq, which indicates the frequency dependence of the peak delay time, show mostly low positive values up to 0.3. It shows that tpd is independent of frequency which may be associated with the relative proportions of large as well as small scale heterogeneities present in the medium. At BHE09, Bfreq exhibits a negative value, which might be attributed to the limited sampling of high-frequency signals that capture small portions of the subsurface along their paths. The crust beneath BHE09 experiences reduced scattering, probably due to the absence of a strongly attenuating body in the subsurface. Furthermore, we aim to extend this study for all the stations and to compare the frequency-dependent nature of T5%-75% (time interval between 5% and 75% of the total integrated power value) and the tpd for the study region.
How to cite: Bala, S., Dutta, A., and Singh, C.: Frequency-dependent delay time analysis for Bhutan Himalaya, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-17485, https://doi.org/10.5194/egusphere-egu24-17485, 2024.