Bulletin of the American Physical Society
57th Annual Meeting of the APS Division of Plasma Physics
Volume 60, Number 19
Monday–Friday, November 16–20, 2015; Savannah, Georgia
Session FR1: Review: Measuring the Opacity of Stellar Interior Matter in Terrestrial LaboratoriesInvited
|
Hide Abstracts |
Chair: Stephanie Hansen, Sandia National Laboratories Room: Chatham Ballroom AB |
Tuesday, November 17, 2015 8:00AM - 9:00AM |
FR1.00001: Measuring the opacity of stellar interior matter in terrestrial laboratories Invited Speaker: James Bailey How does energy propagate from the core to the surface of the Sun, where it emerges to warm the Earth? Nearly a century ago Eddington [1] recognized that the attenuation of radiation by stellar matter controls the internal structure of stars like the sun. Opacities for high energy density (HED) matter are challenging to calculate because accurate and complete descriptions of the energy levels, populations, and plasma effects such as continuum lowering and line broadening are needed for partially ionized atoms. This requires approximations, in part because billions of bound-bound and bound-free electronic transitions can contribute to the opacity. Opacity calculations, however, have never been benchmarked against laboratory measurements at stellar interior conditions. Laboratory opacity measurements were limited in the past by the challenges of creating and diagnosing sufficiently large and uniform samples at the extreme conditions found inside stars. In research conducted over more than 10 years, we developed an experimental platform on the Z facility and measured [2] wavelength-resolved iron opacity at electron temperatures T$_{\mathrm{e}}=$ 156-195 eV and densities n$_{\mathrm{e}}$ $=$ 0.7 -- 4.0 x 10$^{22}$ cm$^{-3}$ - conditions very similar to the radiation/convection boundary zone within the Sun. The wavelength-dependent opacity in the 975 -- 1775 eV photon energy range is 30-400{\%} higher than models predict. This raises questions about how well we understand the behavior of atoms in HED plasma. These measurements may also help resolve decade-old discrepancies between solar model predictions and helioseismic observations. This talk will provide an overview of the measurements, investigations of possible errors, and ongoing experiments aimed at testing hypotheses to resolve the model-data discrepancy. \\[4pt] $++$Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin Company, for the United States Department of Energy under contract DE-AC04-94AL85000. \\[4pt] [1] A.S. Eddington, The Internal Constitution of the Stars (Cambridge Univ. Press, Cambridge, 1926).\\[0pt] [2] J.E. Bailey et al., \textit{Nature} \textbf{517}, 56 (2015). [Preview Abstract] |
Follow Us |
Engage
Become an APS Member |
My APS
Renew Membership |
Information for |
About APSThe American Physical Society (APS) is a non-profit membership organization working to advance the knowledge of physics. |
© 2024 American Physical Society
| All rights reserved | Terms of Use
| Contact Us
Headquarters
1 Physics Ellipse, College Park, MD 20740-3844
(301) 209-3200
Editorial Office
100 Motor Pkwy, Suite 110, Hauppauge, NY 11788
(631) 591-4000
Office of Public Affairs
529 14th St NW, Suite 1050, Washington, D.C. 20045-2001
(202) 662-8700