Properties of the extreme ultraviolet emission from germanium and gallium plasmas

Bowen Li; Hiroyuki Hara; Yuhei Suzuki; Goki Arai; Takeshi Higashiguchi; Hayato Ohashi; Weihua Jiang; Tetsuya Makimura; Hiroyuki A. Sakaue; Chihiro Suzuki; Daiji Kato; Izumi Murakami; Padraig Dunne; Elaine Long; Paul Sheridan; Ximeng Chen; Gerry O'Sullivan

doi:10.1063/1.4928673

Properties of the extreme ultraviolet emission from germanium and gallium plasmas

Bowen Li, Hiroyuki Hara, Yuhei Suzuki, Goki Arai, Takeshi Higashiguchi, Hayato Ohashi, Weihua Jiang, Tetsuya Makimura, Hiroyuki A. Sakaue, Chihiro Suzuki, Daiji Kato, Izumi Murakami, Padraig Dunne, Elaine Long, Paul Sheridan, Ximeng Chen, Gerry O'Sullivan

Faculty of Liberal Arts and Sciences

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

6 Scopus citations

Abstract

We report on the usefulness of germanium (Ge) and gallium (Ga) plasmas as potential extreme ultraviolet (EUV) sources at both 6.x and 13.5nm, wavelengths of interest for lithography and metrology applications. Spectra from plasmas produced using neodymium-doped yttrium-aluminum-garnet (Nd:YAG) lasers with pulse durations of 170 ps and 7ns [full width at half-maximum] and a compact electron beam ion trap have been used to determine the charge states responsible while theoretical calculations using atomic structure Cowan and HULLAC codes enabled the identification of structure in the Ge spectrum arising from strong transitions of the type 3d - 4p and 3d - 4f. Transitions of the type 3d - 4f in Ge¹⁰⁺ and Ga¹¹⁺ were found to lie in the 6.x nm region, while 3p-3d transitions from a range of stages in both elements contribute in the 13.5nm region. We also studied the emission spectra of galinstan plasmas, and the results imply that galinstan might provide a promising candidate for EUV applications that exploit the progress in the development of multilayer mirrors for operation at 6.x nm.

Original language	English
Article number	073302
Journal	Journal of Applied Physics
Volume	118
Issue number	7
DOIs	https://doi.org/10.1063/1.4928673
State	Published - 2015/08/21

ASJC Scopus subject areas

General Physics and Astronomy

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Li, B., Hara, H., Suzuki, Y., Arai, G., Higashiguchi, T., Ohashi, H., Jiang, W., Makimura, T., Sakaue, H. A., Suzuki, C., Kato, D., Murakami, I., Dunne, P., Long, E., Sheridan, P., Chen, X., & O'Sullivan, G. (2015). Properties of the extreme ultraviolet emission from germanium and gallium plasmas. Journal of Applied Physics, 118(7), Article 073302. https://doi.org/10.1063/1.4928673

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title = "Properties of the extreme ultraviolet emission from germanium and gallium plasmas",

abstract = "We report on the usefulness of germanium (Ge) and gallium (Ga) plasmas as potential extreme ultraviolet (EUV) sources at both 6.x and 13.5nm, wavelengths of interest for lithography and metrology applications. Spectra from plasmas produced using neodymium-doped yttrium-aluminum-garnet (Nd:YAG) lasers with pulse durations of 170 ps and 7ns [full width at half-maximum] and a compact electron beam ion trap have been used to determine the charge states responsible while theoretical calculations using atomic structure Cowan and HULLAC codes enabled the identification of structure in the Ge spectrum arising from strong transitions of the type 3d - 4p and 3d - 4f. Transitions of the type 3d - 4f in Ge10+ and Ga11+ were found to lie in the 6.x nm region, while 3p-3d transitions from a range of stages in both elements contribute in the 13.5nm region. We also studied the emission spectra of galinstan plasmas, and the results imply that galinstan might provide a promising candidate for EUV applications that exploit the progress in the development of multilayer mirrors for operation at 6.x nm.",

author = "Bowen Li and Hiroyuki Hara and Yuhei Suzuki and Goki Arai and Takeshi Higashiguchi and Hayato Ohashi and Weihua Jiang and Tetsuya Makimura and Sakaue, {Hiroyuki A.} and Chihiro Suzuki and Daiji Kato and Izumi Murakami and Padraig Dunne and Elaine Long and Paul Sheridan and Ximeng Chen and Gerry O'Sullivan",

note = "Publisher Copyright: {\textcopyright} 2015 AIP Publishing LLC.",

year = "2015",

month = aug,

day = "21",

doi = "10.1063/1.4928673",

language = "英語",

volume = "118",

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T1 - Properties of the extreme ultraviolet emission from germanium and gallium plasmas

AU - Li, Bowen

AU - Hara, Hiroyuki

AU - Suzuki, Yuhei

AU - Arai, Goki

AU - Higashiguchi, Takeshi

AU - Ohashi, Hayato

AU - Jiang, Weihua

AU - Makimura, Tetsuya

AU - Sakaue, Hiroyuki A.

AU - Suzuki, Chihiro

AU - Kato, Daiji

AU - Murakami, Izumi

AU - Dunne, Padraig

AU - Long, Elaine

AU - Sheridan, Paul

AU - Chen, Ximeng

AU - O'Sullivan, Gerry

PY - 2015/8/21

Y1 - 2015/8/21

N2 - We report on the usefulness of germanium (Ge) and gallium (Ga) plasmas as potential extreme ultraviolet (EUV) sources at both 6.x and 13.5nm, wavelengths of interest for lithography and metrology applications. Spectra from plasmas produced using neodymium-doped yttrium-aluminum-garnet (Nd:YAG) lasers with pulse durations of 170 ps and 7ns [full width at half-maximum] and a compact electron beam ion trap have been used to determine the charge states responsible while theoretical calculations using atomic structure Cowan and HULLAC codes enabled the identification of structure in the Ge spectrum arising from strong transitions of the type 3d - 4p and 3d - 4f. Transitions of the type 3d - 4f in Ge10+ and Ga11+ were found to lie in the 6.x nm region, while 3p-3d transitions from a range of stages in both elements contribute in the 13.5nm region. We also studied the emission spectra of galinstan plasmas, and the results imply that galinstan might provide a promising candidate for EUV applications that exploit the progress in the development of multilayer mirrors for operation at 6.x nm.

AB - We report on the usefulness of germanium (Ge) and gallium (Ga) plasmas as potential extreme ultraviolet (EUV) sources at both 6.x and 13.5nm, wavelengths of interest for lithography and metrology applications. Spectra from plasmas produced using neodymium-doped yttrium-aluminum-garnet (Nd:YAG) lasers with pulse durations of 170 ps and 7ns [full width at half-maximum] and a compact electron beam ion trap have been used to determine the charge states responsible while theoretical calculations using atomic structure Cowan and HULLAC codes enabled the identification of structure in the Ge spectrum arising from strong transitions of the type 3d - 4p and 3d - 4f. Transitions of the type 3d - 4f in Ge10+ and Ga11+ were found to lie in the 6.x nm region, while 3p-3d transitions from a range of stages in both elements contribute in the 13.5nm region. We also studied the emission spectra of galinstan plasmas, and the results imply that galinstan might provide a promising candidate for EUV applications that exploit the progress in the development of multilayer mirrors for operation at 6.x nm.

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JO - Journal of Applied Physics

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Properties of the extreme ultraviolet emission from germanium and gallium plasmas

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