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Design of kJ-class HiLASE laser as a driver for inertial fusion energy – CORRIGENDUM
- Part of
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- Journal:
- High Power Laser Science and Engineering / Volume 2 / 01 July 2014
- Published online by Cambridge University Press:
- 21 July 2014, e23
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- Article
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Design of a kJ-class HiLASE laser as a driver for inertial fusion energy
- Part of
-
- Journal:
- High Power Laser Science and Engineering / Volume 2 / 01 July 2014
- Published online by Cambridge University Press:
- 27 May 2014, e13
-
- Article
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- You have access
- Open access
- HTML
- Export citation
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We present the results of performance modeling of a diode-pumped solid-state HiLASE laser designed for use in inertial fusion energy power plants. The main amplifier concept is based on a He-gas-cooled multi-slab architecture similar to that employed in Mercury laser system. Our modeling quantifies the reduction of thermally induced phase aberrations and average depolarization in
${\mathrm{Yb}}^{{3+}}$:YAG slabs by a combination of helium cryogenic cooling and properly designed (doping/width) cladding materials.
