Flaring variability of Microquasars

TL;DR

This study presents multi-frequency radio monitoring of microquasars, revealing correlations between radio flares and X-ray activity, and demonstrating that radio monitoring effectively traces jet activity in X-ray binaries.

Contribution

It provides detailed multi-frequency radio observations of microquasars, establishing a link between radio flares and X-ray activity, and highlights the effectiveness of radio monitoring in tracing jet activity.

Findings

Bright short-time radio flares detected from GRS 1915+105.

Radio flares correlated with intense X-ray emission.

Radio monitoring is a good tracer of jet activity.

Abstract

We discuss flaring variability of radio emission of microquasars, measured in monitoring programs with the RATAN-600 radio telescope. We carried out a multi-frequency (1-30 GHz) daily monitoring of the radio flux variability of the microquasars SS433, GRS1915+105, and Cyg X-3 during the recent sets in 2005-2007. A lot of bright short-time flares were detected from GRS 1915+105 and they could be associated with active X-ray events. In January 2006 we detected a drop down of the quiescent fluxes from Cyg X-3 (from 100 to $\sim$20 mJy), then the 1 Jy-flare was detected on 2 February 2006 after 18 days of quenched radio emission. The daily spectra of the flare in the maximum were flat from 2 to 110 GHz, using the quasi-simultaneous observations at 110 GHz with the RT45m telescope and the NMA millimeter array of NRO in Japan. Several bright radio flaring events (1-15 Jy) followed during the continuing state of very variable and intensive 1-12 keV X-ray emission ($\sim$0.5 Crab), which was monitored in the RXTE ASM program. Swift/BAT ASM hard X-ray fluxes correlated strongly with flaring radio data. The various spectral and temporal characteristics of the light curves from the microquasars could be determined from such comparison. We conclude that monitoring of the flaring radio emission is a good tracer of jet activity X-ray binaries.