Large Kerr effect in bulk Se-based chalcogenide glasses

G. Lenz; J. Zimmermann; T. Katsufuji; M. E. Lines; H. Y. Hwang; S. Spälter; R. E. Slusher; S. W. Cheong; J. S. Sanghera; I. D. Aggarwal

doi:10.1364/OL.25.000254

Large Kerr effect in bulk Se-based chalcogenide glasses

G. Lenz^*, J. Zimmermann, T. Katsufuji, M. E. Lines, H. Y. Hwang, S. Spälter, R. E. Slusher, S. W. Cheong, J. S. Sanghera, I. D. Aggarwal

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研究成果: Article › 査読

241 被引用数 (Scopus)

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High-speed optical communication requires ultrafast all-optical processing and switching capabilities. The Kerr nonlinearity, an ultrafast optical nonlinearity, is often used as the basic switching mechanism. A practical, small device that can be switched with ∼1-pJ energies requires a large Kerr effect with minimal losses (both linear and nonlinear). We have investigated theoretically and experimentally a number of Sebased chalcogenide glasses. We have found a number of compounds with a Kerr nonlinearity hundreds of times larger than silica, making them excellent candidates for ultrafast all-optical devices.

本文言語	English
ページ（範囲）	254-256
ページ数	3
ジャーナル	Optics Letters
巻	25
号	4
DOI	https://doi.org/10.1364/OL.25.000254
出版ステータス	Published - 2000 2月 15
外部発表	はい

ASJC Scopus subject areas

原子分子物理学および光学

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AU - Lenz, G.

AU - Zimmermann, J.

AU - Katsufuji, T.

AU - Lines, M. E.

AU - Hwang, H. Y.

AU - Spälter, S.

AU - Slusher, R. E.

AU - Cheong, S. W.

AU - Sanghera, J. S.

AU - Aggarwal, I. D.

PY - 2000/2/15

Y1 - 2000/2/15

N2 - High-speed optical communication requires ultrafast all-optical processing and switching capabilities. The Kerr nonlinearity, an ultrafast optical nonlinearity, is often used as the basic switching mechanism. A practical, small device that can be switched with ∼1-pJ energies requires a large Kerr effect with minimal losses (both linear and nonlinear). We have investigated theoretically and experimentally a number of Sebased chalcogenide glasses. We have found a number of compounds with a Kerr nonlinearity hundreds of times larger than silica, making them excellent candidates for ultrafast all-optical devices.

AB - High-speed optical communication requires ultrafast all-optical processing and switching capabilities. The Kerr nonlinearity, an ultrafast optical nonlinearity, is often used as the basic switching mechanism. A practical, small device that can be switched with ∼1-pJ energies requires a large Kerr effect with minimal losses (both linear and nonlinear). We have investigated theoretically and experimentally a number of Sebased chalcogenide glasses. We have found a number of compounds with a Kerr nonlinearity hundreds of times larger than silica, making them excellent candidates for ultrafast all-optical devices.

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Large Kerr effect in bulk Se-based chalcogenide glasses

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