Detection of high-frequency pulsation in WR 135: investigation of stellar wind dynamics

Abstract

We report the detection of high-frequency pulsations in WR\,135 from short cadence (10\,minutes) optical photometric and spectroscopic time series surveys. The harmonics up to 6th order are detected from the integrated photometric flux variations while the comparatively weaker 8th harmonic is detected from the strengths of the emission lines. We investigate the driving source of the stratified winds of WR\,135 using the radiative transfer modeling code, CMFGEN, and find the physical conditions that can explain the propagation of such pulsations. From our study, we find that the optically thick sub-sonic layers of the atmosphere are close to the Eddington limit and are launched by the Fe-opacity. The outer optically thin super-sonic winds (τross=0.1-0.01) are launched by the He\,ii and C\,iv opacities. The stratified winds above the sonic point undergo velocity perturbation that can lead to clumps. In the optically thin supersonic winds, dense clumps of smaller size (fVFF=0.27-0.3, where fVFF is the volume filling factor) pulsate with higher-order harmonics. The larger clumps (fVFF=0.2) oscillate with lower-order harmonics of the pulsation and affect the overall wind variability.

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