Beyond Extreme Ultra Violet (BEUV) Radiation from Spherically symmetrical High-Z plasmas

Kensuke Yoshida; Shinsuke Fujioka; Takeshi Higashiguchi; Teruyuki Ugomori; Nozomi Tanaka; Masato Kawasaki; Yuhei Suzuki; Chihiro Suzuki; Kentaro Tomita; Ryouichi Hirose; Takeo Eshima; Hayato Ohashi; Masaharu Nishikino; Enda Scally; Hiroaki Nshimura; Hiroshi Azechi; Gerard O'Sullivan

doi:10.1088/1742-6596/688/1/012046

Journal of Physics: Conference Series

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Beyond Extreme Ultra Violet (BEUV) Radiation from Spherically symmetrical High-Z plasmas

Kensuke Yoshida¹, Shinsuke Fujioka¹, Takeshi Higashiguchi², Teruyuki Ugomori¹, Nozomi Tanaka¹, Masato Kawasaki², Yuhei Suzuki², Chihiro Suzuki³, Kentaro Tomita⁴, Ryouichi Hirose⁵, Takeo Eshima⁵, Hayato Ohashi², Masaharu Nishikino⁶, Enda Scally⁷, Hiroaki Nshimura¹, Hiroshi Azechi¹ and Gerard O'Sullivan⁷

Published under licence by IOP Publishing Ltd
Journal of Physics: Conference Series, Volume 688, 8th International Conference on Inertial Fusion Sciences and Applications (IFSA 2013)8–13 September 2013, Nara, Japan Citation Kensuke Yoshida et al 2016 J. Phys.: Conf. Ser. 688 012046 DOI 10.1088/1742-6596/688/1/012046

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yoshida-k@ile.osaka-u.ac.jp

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¹ Institute of Laser Engineering, Osaka University (2-6 Yamadaoka, Suita, Osaka 565-0871), Japan

² Utsunomiya University (350 Minemachi, Utsunomiya, Tochigi 321-8505), Japan

³ National Institute for Fusion Science (322-6 Oroshicyo, Tokishi, Gihu 509-5292), Japan

⁴ Kyusyu University (6-10-1 Hakozaki, Higashiku, Fukuokashi 812-8581), Japan

⁵ Tohoku University (2-1-1 Katahira, Aobaku, Sendaishi, Miyagi 980-8577), Japan

⁶ Japan Atomic Energy Agency (4-49, Muramatsu, Toukaimura, Nakagun, Ibaraki 319-1184), Japan

⁷ University College Dublin (UCD), (Belfield, Dublin 4), Ireland

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Abstract

Photo-lithography is a key technology for volume manufacture of high performance and compact semiconductor devices. Smaller and more complex structures can be fabricated by using shorter wavelength light in the photolithography. One of the most critical issues in development of the next generation photo-lithography is to increase energy conversion efficiency (CE) from laser to shorter wavelength light. Experimental database of beyond extreme ultraviolet (BEUV) radiation was obtained by using spherically symmetrical high-Z plasmas generated with spherically allocated laser beams. Absolute energy and spectra of BEUV light emitted from Tb, Gd, and Mo plasmas were measured with a absolutely calibrated BEUV calorimeter and a transmission grating spectrometer. 1.0 x 10¹² W/cm² is the optimal laser intensity to produced efficient BEUV light source plasmas with Tb and Gd targets. Maximum CE is achieved at 0.8% that is two times higher than the published CEs obtained with planar targets.

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Beyond Extreme Ultra Violet (BEUV) Radiation from Spherically symmetrical High-Z plasmas

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