Title :
High-Resolution UV Laser Diagnostics on the 1-MA Zebra Generator
Author :
Altemara, Sara D. ; Papp, Daniel ; Ivanov, Vladimir V. ; Anderson, Austin A. ; Astanovitskiy, Alexey A. ; Nalajala, V.
Author_Institution :
Univ. of Nevada at Reno, Reno, NV, USA
Abstract :
Laser diagnostics at the wavelength of 266 nm with a spatial resolution of 5-8 μm were developed for the investigation of dense Z-pinches at the 1-MA generator. The absorption and refraction in Z-pinch plasma are significantly smaller at the ultraviolet (UV) wavelength of 266 nm compared to the optical range. This allows for observation of the fine internal structure of Z-pinches at the stagnation phase. A UV laser beam penetrates through the trailing plasma around Z-pinches and shows strong instabilities of the dense pinch inside this plasma column. Kink instability, necks, and areas of disruption are seen in Z-pinches at the peak of the X-ray pulse and later in time. UV two-frame side-on and end-on shadowgraphy show plasma dynamics in the pinch at stagnation.
Keywords :
Z pinch; plasma X-ray sources; plasma density; plasma devices; plasma diagnostics; plasma light propagation; UV laser beam; UV two-frame end-on shadowgraphy; UV two-frame side-on shadowgraphy; X-ray pulse; Z-pinch plasma absorption; Z-pinch plasma refraction; Zebra generator; current 1 MA; dense Z-pinch analysis; dense pinch instabilities; disruption areas; fine internal structure; high-resolution UV laser diagnostics; kink instability; optical range; plasma column; plasma dynamics; spatial resolution; ultraviolet wavelength; wavelength 266 nm; Interferometry; Laser beams; Plasmas; Spatial resolution; Wires; X-ray lasers; UV laser diagnostics; wire-array $Z$ -pinches;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2217355
