Radiation cooling of laboratory photoionized plasmas
Abstract
In separate experiments performed at the Z facility of Sandia National Laboratories two different samples were employed to produce and characterize photoionized plasmas. One was a gas cell filled with neon, and the other was a thin silicon-oxygen layer tamped with plastic. Both samples were driven by the broadband, intense x-ray flux produced at the collapse of a wire array z-pinch implosion. Transmission spectroscopy of a narrowband portion of the x-ray flux was used to diagnose the plasma. A method was used to extract the electron temperature that is independent of atomic kinetics modeling. To interpret the measurement, we performed Boltzmann electron kinetics and radiation-hydrodynamics modeling. The simulations of both experiments emphasized the critical interplay between atomic physics and plasma heating, and demonstrated the dramatic impact of photoexcitation on excited state populations, line emissivity, and radiation cooling.
This work was sponsored in part by DOE HEDLP Grant DE-NA0003875, the Wootton Center for Astrophysical Plasma Properties, and the Z Facility Fundamental Science Program of SNL.- Publication:
-
APS Division of Plasma Physics Meeting Abstracts
- Pub Date:
- 2019
- Bibcode:
- 2019APS..DPPBO7006M