X-raying the winds of massive stars using high mass X-ray binaries

2021-02-05
12:00
CSIC
Online
X-raying the winds of massive stars using high mass X-ray binaries
The researcher Victoria Grinberg, from the IAAT (Universität Tübingen, Germany), will talk about X-raying the winds of massive stars using high mass X-ray binaries.

We are made of stardust—or, at least in significant parts, of material processed in stars. Hot, massive giant stars can drive the chemical evolution of galaxies and trigger and quench star formation through their strong winds and their final demise as supernovae. Yet optical and X-ray measurements of the wind mass loss strongly disagree and can only be reconciled if the winds are highly structured, with colder, dense clumps embedded in a tenuous hot gas. In (quasi-)single stars, however, wind properties are inferred for the whole wind ensemble only; no measurements of individual clumps or clump groups are possible, limiting our understanding of wind properties. Luckily, nature provides us with perfect laboratories to study clumpy winds: high mass X-ray binaries. The radiation from close to the compact object is quasi-point like and effectively X-rays the wind, in particular the clumps crossing our line of sight.

In this talk, I will show how we can use a variety of observations to constrain wind properties in some of the brightest HMXBs today. I will in particular focus on the advances from the recent years as done by the X-wind collaboration. Time- and absorption-resolved high resolution X-ray spectroscopy reveals the composition of the multicomponent wind plasma, the structure of the accretion wake, and the wind's response to changes in irradiation. New simulations of wind accretion pave the way towards constraining clump properties from stochastic variability of absorption. Future X-ray telescopes such as XRISM and Athena will revolutionise the field, allowing us to observe individual clumps in bright sources and, for the first time, make faint sources accessible for high resolution spectroscopy.

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Meeting ID: 850 4491 0172 
Passcode: 996691

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