X-Ray binaries in local analogs to the first galaxies
Abstract
Details
- Title: Subtitle
- X-Ray binaries in local analogs to the first galaxies
- Creators
- Matthew G. Brorby - University of Iowa
- Contributors
- Philip Kaaret (Advisor)Hai Fu (Committee Member)Kenneth Gayley (Committee Member)Andrea Prestwich (Committee Member)Steven Spangler (Committee Member)
- Resource Type
- Dissertation
- Degree Awarded
- Doctor of Philosophy (PhD), University of Iowa
- Degree in
- Physics
- Date degree season
- Spring 2017
- DOI
- 10.17077/etd.m5j7epqy
- Publisher
- University of Iowa
- Number of pages
- xiii, 106 pages
- Copyright
- Copyright © 2017 Matthew G. Brorby
- Language
- English
- Description illustrations
- illustrations (some color)
- Description bibliographic
- Includes bibliographical references (pages 91-106).
- Public Abstract (ETD)
Approximately 400,000 years after the Big Bang, the Universe had expanded and cooled enough such that protons and electrons – which had been disassociated up to that point – joined to form neutral atoms. From this neutral material, the first stars and galaxies formed. These stars’ intense ultraviolet radiation began to undo the neutralization process, ripping electrons from atoms (ionization) within the remaining neutral material. This continued until nearly all the neutral material throughout the Universe was re-ionized. However, ultraviolet photons were not the sole ionizing radiation at this time. X-rays from extremely hot material falling into black holes could have significantly affected the timing and structure of this re- ionization process. My thesis focuses on addressing the question: what role did X-rays play during this time?
Currently, X-ray telescopes cannot see these extremely distant black holes. Instead, nearby galaxies with the right properties are used as proxies. Compared to the first galaxies, most galaxies we see today have a higher fraction of elements heavier than helium. These elements are produced through the life and death of generations of stars. Therefore, the proxy galaxies must have very low fractions of heavy elements and should have just begun producing stars.
In measuring the X-ray emission from 41 local proxies to the first galaxies, I found a significant increase in X-ray producing objects compared to normal galaxies seen today. By incorporating this information into simulations, we can better understand the role X-rays played in shaping the early Universe.
- Academic Unit
- Physics and Astronomy
- Record Identifier
- 9983776768302771