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Space and time resolved measurements of the heating of solids to ten million kelvin by a petawatt laser

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Published 24 April 2008 Published under licence by IOP Publishing Ltd
, , Citation M Nakatsutsumi et al 2008 New J. Phys. 10 043046 DOI 10.1088/1367-2630/10/4/043046

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Author affiliations

1 Graduate School of Engineering, Osaka University, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan

2 GoLP, IPFN, Instituto Superior Técnico, 1049-001 Lisboa, Portugal

3 Institute of Laser Engineering, Osaka University, 2-6 Yamada-oka, Suita, Osaka 565-0871, Japan

4 STFC Rutherford Appleton Laboratory, Chilton, Oxon, OX11 0QX, UK

5 Blackett Laboratory, Imperial College London, Prince Consort Road, London SW7 2BZ, UK

6 General Atomics, PO Box 86508, San Diego, CA 92186-5608, USA

7 Department of Mechanical and Aerospace Engineering, University of California San Diego, 9500 Gilman Drive 0411, La Jolla, CA 92093-0411, USA

8 Department of Physics, Ohio State University, Columbus, OH 43200-1117, USA

9 Department of Physics, University of York, Heslington, York YO10 5DD, UK

10 Lawrence Livermore National Laboratory, PO Box 808, Livermore, CA 94550, USA

11 Department of Applied Sciences, University of California, 1 Shields Avenue, Davis, CA 95616-8254, USA

12 Laboratory of Laser Energetics, University of Rochester, 250 East River Road, Rochester, NY 14623, USA

13 Center for Ultrafast Optical Science, University of Michigan, Ann Arbor, MI 48109, USA

14 Kansai Photon Science Institute, Japan Atomic Energy Agency, Kyoto 619-0215, Japan

15 Author to whom any correspondence should be addressed.

Dates

  1. Received 21 February 2008
  2. Published

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1367-2630/10/4/043046

Abstract

The heating of plane solid targets by the Vulcan petawatt laser at powers of 0.32–0.73 PW and intensities of up to 4×1020 W cm−2 has been diagnosed with a temporal resolution of 17 ps and a spatial resolution of 30 μm, by measuring optical emission from the opposite side of the target to the laser with a streak camera. Second harmonic emission was filtered out and the target viewed at an angle to eliminate optical transition radiation. Spatial resolution was obtained by imaging the emission onto a bundle of fibre optics, arranged into a one-dimensional array at the camera entrance. The results show that a region 160 μm in diameter can be heated to a temperature of ∼107 K (kT/e∼ keV) in solid targets from 10 to 20 μm thick and that this temperature is maintained for at least 20 ps, confirming the utility of PW lasers in the study of high energy density physics. Hybrid code modelling shows that magnetic field generation prevents increased target heating by electron refluxing above a certain target thickness and that the absorption of laser energy into electrons entering the solid target was between 15–30%, and tends to increase with laser energy.

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10.1088/1367-2630/10/4/043046