Study of active media based on microparticles of solid-state laser materials

Active media based on particles of solid-state laser materials distributed in liquid or gas may provide a new solution to the problem of heat removal from laser media. We propose active media based on particles of LiF crystal with F2 color centers, as well as of Nd3+-doped crystals and glasses. Mixt...

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Published inIOP conference series. Materials Science and Engineering Vol. 848; no. 1; pp. 12100 - 12109
Main Authors Burdukova, O A, Konyshkin, V A, Kopylov, Yu L, Lopukhin, K V, Petukhov, V A, Senatsky, Yu V, Zverev, P G
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.05.2020
Subjects
Color centers
Doped crystals
Lanthanide phosphates
Laser materials
Lasers
Liquids
Lithium fluoride
Media
Microparticles
Neodymium
Optical properties
Phosphate glass
Solid state lasers
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Summary:Active media based on particles of solid-state laser materials distributed in liquid or gas may provide a new solution to the problem of heat removal from laser media. We propose active media based on particles of LiF crystal with F2 color centers, as well as of Nd3+-doped crystals and glasses. Mixtures of index-matched liquids with glass and crystal particles, methods of their preparation, and their optical characteristics are considered. The laser characteristics of the active media under excitation by nanosecond laser pulses are compared. A "slurry laser" based on a dense mixture of LiF:F2 microparticles with an index-matched liquid is demonstrated. Lasing was obtained in small neodymium pentaphosphate crystals (NdP5O14) and unpolished bulk pieces of concentrated neodymium phosphate glass in immersion liquids.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/848/1/012100