We report the results of Faraday rotation measurements of 23 background radio sources whose lines of sight pass through or close to the Rosette Nebula. We made linear polarization measurements with the Karl G. Jansky Very Large Array (VLA) at frequencies of 4.4 GHz, 4.9 GHz, and 7.6 GHz. We find the background Galactic contribution to the rotation measure in this part of the sky to be +147 rad m-2. Sources whose lines of sight pass through the nebula have an excess rotation measure of 50-750 rad m-2, which we attribute to the plasma shell of the Rosette Nebula. We consider two simple plasma shell models and how they reproduce the magnitude and sign of the rotation measure, and its dependence on distance from the center of the nebula. These two models represent different modes of interaction of the Rosette Nebula star cluster with the surrounding interstellar medium. Both can reproduce the magnitude and spatial extent of the rotation measure enhancement, given plausible free parameters. We contend that the model based on a stellar bubble more closely reproduces the observed dependence of rotation measure on distance from the center of the nebula.
Thesis
Probing the Rosette Nebula stellar bubble with Faraday rotation
University of Iowa
Master of Science (MS), University of Iowa
Spring 2013
DOI: 10.17077/etd.1eeyxpck
Free to read and download, Open Access
Abstract
Details
- Title: Subtitle
- Probing the Rosette Nebula stellar bubble with Faraday rotation
- Creators
- Allison Hainline Savage - University of Iowa
- Contributors
- Steven R. Spangler (Advisor)Cornelia Lang (Committee Member)Kenneth Gayley (Committee Member)
- Resource Type
- Thesis
- Degree Awarded
- Master of Science (MS), University of Iowa
- Degree in
- Astronomy
- Date degree season
- Spring 2013
- Publisher
- University of Iowa
- DOI
- 10.17077/etd.1eeyxpck
- Number of pages
- vi, 49 pages
- Copyright
- Copyright 2013 Allison Hainline Savage
- Language
- English
- Description illustrations
- illustrations
- Description bibliographic
- Includes bibliographical references (pages 47-49).
- Academic Unit
- Physics and Astronomy
- Record Identifier
- 9983776741102771
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