Theoretical investigation of the spectrum and conversion efficiency of short wavelength extreme-ultraviolet light sources based on terbium plasmas

Akira Sasaki; Katsunobu Nishihara; Atsushi Sunahara; Hiroyuki Furukawa; Takeshi Nishikawa; Fumihiro Koike

doi:10.1063/1.3524494

Theoretical investigation of the spectrum and conversion efficiency of short wavelength extreme-ultraviolet light sources based on terbium plasmas

Akira Sasaki, Katsunobu Nishihara, Atsushi Sunahara, Hiroyuki Furukawa, Takeshi Nishikawa, Fumihiro Koike

School of Engineering

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

The emission spectrum and conversion efficiency of laser-produced terbium plasmas are theoretically investigated on the basis of computational atomic data. The theoretically calculated spectrum reproduces the main peak of observed spectrum at λ=6.5 nm, which originates from 4d-4f transitions of near palladiumlike ions (Tb19+). A simple model of the isothermal expansion of terbium plasma suggests that efficient emission can be achieved by pumping the plasma with a laser pulse at an intensity of approximately one order of magnitude greater than that used with tin sources at λ=13.5 nm.

Original language	English
Article number	231501
Journal	Applied Physics Letters
Volume	97
Issue number	23
DOIs	https://doi.org/10.1063/1.3524494
Publication status	Published - Dec 6 2010

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1063/1.3524494

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title = "Theoretical investigation of the spectrum and conversion efficiency of short wavelength extreme-ultraviolet light sources based on terbium plasmas",

abstract = "The emission spectrum and conversion efficiency of laser-produced terbium plasmas are theoretically investigated on the basis of computational atomic data. The theoretically calculated spectrum reproduces the main peak of observed spectrum at λ=6.5 nm, which originates from 4d-4f transitions of near palladiumlike ions (Tb19+). A simple model of the isothermal expansion of terbium plasma suggests that efficient emission can be achieved by pumping the plasma with a laser pulse at an intensity of approximately one order of magnitude greater than that used with tin sources at λ=13.5 nm.",

author = "Akira Sasaki and Katsunobu Nishihara and Atsushi Sunahara and Hiroyuki Furukawa and Takeshi Nishikawa and Fumihiro Koike",

note = "Funding Information: A part of this study was carried out under the auspices of the Grant-in-Aid for Scientific Research No. 20340166 from the Japan Society for the Promotion of Science (JSPS). A.S. is grateful to Dr. T. Kawachi, Dr. A. Yokoyama, and Dr. S. Kawanishi for their support and to Dr. H. Nishimura and Dr. S. Fujioka for their useful discussions.",

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AU - Sasaki, Akira

AU - Nishihara, Katsunobu

AU - Sunahara, Atsushi

AU - Furukawa, Hiroyuki

AU - Nishikawa, Takeshi

AU - Koike, Fumihiro

N1 - Funding Information: A part of this study was carried out under the auspices of the Grant-in-Aid for Scientific Research No. 20340166 from the Japan Society for the Promotion of Science (JSPS). A.S. is grateful to Dr. T. Kawachi, Dr. A. Yokoyama, and Dr. S. Kawanishi for their support and to Dr. H. Nishimura and Dr. S. Fujioka for their useful discussions.

PY - 2010/12/6

Y1 - 2010/12/6

N2 - The emission spectrum and conversion efficiency of laser-produced terbium plasmas are theoretically investigated on the basis of computational atomic data. The theoretically calculated spectrum reproduces the main peak of observed spectrum at λ=6.5 nm, which originates from 4d-4f transitions of near palladiumlike ions (Tb19+). A simple model of the isothermal expansion of terbium plasma suggests that efficient emission can be achieved by pumping the plasma with a laser pulse at an intensity of approximately one order of magnitude greater than that used with tin sources at λ=13.5 nm.

AB - The emission spectrum and conversion efficiency of laser-produced terbium plasmas are theoretically investigated on the basis of computational atomic data. The theoretically calculated spectrum reproduces the main peak of observed spectrum at λ=6.5 nm, which originates from 4d-4f transitions of near palladiumlike ions (Tb19+). A simple model of the isothermal expansion of terbium plasma suggests that efficient emission can be achieved by pumping the plasma with a laser pulse at an intensity of approximately one order of magnitude greater than that used with tin sources at λ=13.5 nm.

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Theoretical investigation of the spectrum and conversion efficiency of short wavelength extreme-ultraviolet light sources based on terbium plasmas

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