PROGRESS AND PROSPECTS FOR SOFT X-RAY LASING DRIVEN BY HIGH POWER OPTICAL LASERS.

M. D. Rosen; Dennis L Matthews; P. L. Hagelstein

PROGRESS AND PROSPECTS FOR SOFT X-RAY LASING DRIVEN BY HIGH POWER OPTICAL LASERS.

M. D. Rosen, Dennis L Matthews, P. L. Hagelstein

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We will describe our optical laser pumped XUV Laser Program. To date, we have concentrated our efforts on exploding foil amplifier designs using Ne-like n equals 3p to 3s inversion schemes. We will describe our latest modeling results as well as measurements which demonstrate output power near the 1 MW level at 206 and 209 Angstrom and lasing at wavelengths as short as 106 Angstrom.

Original language	English (US)
Title of host publication	Proceedings of SPIE - The International Society for Optical Engineering
Place of Publication	Bellingham, WA, USA
Publisher	SPIE
Pages	277-284
Number of pages	8
Volume	664
ISBN (Print)	0892526998
State	Published - 1986
Externally published	Yes

ASJC Scopus subject areas

Electrical and Electronic Engineering
Condensed Matter Physics

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Rosen, M. D., Matthews, D. L., & Hagelstein, P. L. (1986). PROGRESS AND PROSPECTS FOR SOFT X-RAY LASING DRIVEN BY HIGH POWER OPTICAL LASERS. In Proceedings of SPIE - The International Society for Optical Engineering (Vol. 664, pp. 277-284). SPIE.

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abstract = "We will describe our optical laser pumped XUV Laser Program. To date, we have concentrated our efforts on exploding foil amplifier designs using Ne-like n equals 3p to 3s inversion schemes. We will describe our latest modeling results as well as measurements which demonstrate output power near the 1 MW level at 206 and 209 Angstrom and lasing at wavelengths as short as 106 Angstrom.",

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year = "1986",

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AU - Matthews, Dennis L

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PY - 1986

Y1 - 1986

N2 - We will describe our optical laser pumped XUV Laser Program. To date, we have concentrated our efforts on exploding foil amplifier designs using Ne-like n equals 3p to 3s inversion schemes. We will describe our latest modeling results as well as measurements which demonstrate output power near the 1 MW level at 206 and 209 Angstrom and lasing at wavelengths as short as 106 Angstrom.

AB - We will describe our optical laser pumped XUV Laser Program. To date, we have concentrated our efforts on exploding foil amplifier designs using Ne-like n equals 3p to 3s inversion schemes. We will describe our latest modeling results as well as measurements which demonstrate output power near the 1 MW level at 206 and 209 Angstrom and lasing at wavelengths as short as 106 Angstrom.

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