Circular polarization effects in ion acceleration from high intensity, short pulse laser interactions

F. Dollar; C. Zulick; S.S. Bulanov; V. Chvykov; G. Kalintchenko; T. Matsuoka; C. McGuffey; A.G.R. Thomas; L. Willingale; V. Yanovsky; A. Maksimchuk; K. Krushelnick; G. Petrov; J. Davis

Circular polarization effects in ion acceleration from high intensity, short pulse laser interactions

ORAL

Abstract

Experiments were performed to investigate ion acceleration effects from circular polarization from thin targets, using a high contrast, ultra-short laser pulse from the HERCULES laser facility at the Univ. of Michigan. Experiments were performed with $50$ TW, $35$ fs pulses at an intensity of $>10^{21} \; \rm{Wcm}^{-2}$ on $Si_{3}N_{4}$ and Mylar targets of 30 nm to 1 $\mu$m thickness with contrast $<10^{-13}$. Protons with maximum energy 18 MeV and Carbon ions with energies of up to 10 MeV per nucleon were measured. Particle-in-cell simulations demonstrating the acceleration mechanism will be presented as well.

^*Supported by NSF Physics Frontier Center FOCUS (Grant PHY-0114336), Defense Threat Reduction Agency, and Naval Research Laboratory. We acknowledge the OSIRIS consortium for the use of OSIRIS.

Nov. 16, 2011, 12:06 PM – Nov. 16, 2011, 12:18 PM

Authors

F. Dollar
C. Zulick
S.S. Bulanov
V. Chvykov
G. Kalintchenko
T. Matsuoka
C. McGuffey
A.G.R. Thomas
L. Willingale
V. Yanovsky
A. Maksimchuk
K. Krushelnick
- CUOS, Univ. of Michigan
G. Petrov
J. Davis
- Division of Plasma Physics, Naval Research Laboratory