Decoding the Origin of HFQPOs of GRS 1915+105 during 'Canonical' Soft States: An In-depth View using Multi-mission observations
Abstract
We present a comprehensive analysis of the 'canonical' soft state (γ, δ, and φ spectral variability classes) of the black hole binary GRS 1915+105, using RXTE, AstroSat, and NuSTAR data from 1996 to 2017 to investigate the origin of High Frequency Quasi-periodic Oscillations (HFQPOs). Our findings reveal that HFQPOs occur only in the γ and δ classes, with frequencies of 65.07-71.38 Hz and are absent in the φ class. We observe an evolution of time-lag from hard-lag (1.59-7.55 ms) in RXTE to a soft-lag (0.49-1.68 ms) in AstroSat observations. Wide-band (0.7-50 keV) spectral modelling suggests that HFQPOs are likely observed with a higher covering fraction (fcov 0.5), i.e., the fraction of seed photons being Comptonized in the corona, enhanced Comptonized flux ( 38%), and lower optical depth (τ 8.5 ) in contrast to observations where HFQPOs are absent. We observed similar constraints for observing HFQPOs during an inter-class (φ → δ) transition as well as in a few intra-class (δ → δ) variations. We also find that the time-lag decreases as τ increases, indicating that a higher τ reduces Compton up-scattering, thereby decreasing the hard-lag. Interestingly, in RXTE observations, the hard-lag ( 7 ms) gradually decreases as optical depth and Comptonization ratio increases, eventually becoming a soft-lag (1 ms) in AstroSat observations. These constraints on spectro-temporal parameters for the likelihood of observing HFQPOs support a 'compact' coronal oscillation mechanism for generating HFQPOs, which we attempt to explain within the framework of a possible accretion scenario.
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