Conversion Efficiency Enhancement for Laser Generated Protons in Reduced Mass Targets

POSTER

Abstract

We demonstrate experimentally that minimizing the area and maximizing the isolation of proton beam sources, can increase the efficiency with which they convert energy into protons. The experiment was performed on the Tcubed laser facility at the University of Michigan. The hybrid Ti:Sapphire/ Nd-glass laser delivers up to 5 J on target in 400 fs, with a peak intensity of 2x10$^{19}$ W/cm$^{2}$. Micro machined Cu foils, 10 $\mu $m thick, were used as reduced mass targets. These 150 $\mu $m x 150 $\mu $m Cu targets, were connected to the supporting mount foil by identical legs at their corners, of the same thickness and 3 varying widths: 21$\mu $m, 42 $\mu $m and 84 $\mu $m. Detailed experimental data and simulations will be presented. The work was performed under the auspices of the U.S. Department of Energy under contract DE-SC0001265.

Authors

  • Alessio Morace

    • University of California San Diego, University of Milano

  • Teresa Bartal

    • UCSD
    • University of California San Diego

  • Louise Willingale

    • University of Michigan

  • Joohwan Kim

    • University of California San Diego

  • Anatoly Maksimchuk

    • University of Michigan

  • Karl Krushelnick

    • Center for Ultrafast Optical Science, University of Michigan, Ann Arbor, Michigan 48109-2099, USA
    • University of Michigan

  • Mingsheng Wei

    • GA
    • General Atomics

  • Bhooshan Paradkar

    • University of California San Diego

  • Dimitri Batani

    • Universit\'e de Bordeaux 1

  • Nicola Piovella

    • University of Milano

  • Richard Stephens

    • General Atomics
    • GA

  • Farhat Beg

    • UCSD
    • UC San Diego
    • University of California San Diego
    • U California San Diego
    • University of California-San Diego, La Jolla, California 92093, USA
    • University of California-San Diego, USA