The Czochralski growth and laser characteristics of Li(Y, Er, Tm, Ho) F4 and Li(Lu, Er, Tm, Ho) F4 scheelite single crystals
Identifieur interne : 001A55 ( Istex/Corpus ); précédent : 001A54; suivant : 001A56The Czochralski growth and laser characteristics of Li(Y, Er, Tm, Ho) F4 and Li(Lu, Er, Tm, Ho) F4 scheelite single crystals
Auteurs : B. Cockayne ; J. G. Plant ; R. A. ClaySource :
- Journal of Crystal Growth [ 0022-0248 ] ; 1981.
English descriptors
- KwdEn :
- Atomic numbers, Clear material, Cockayne, Component fluorides, Concentrator coil, Crystal diameter, Crystal growth, Czochralski, Czochralski technique, Fluoride, Fluoride scheelites, Growth axis, Growth direction, Laser, Laser characteristics, Laser performance, Last material, Lattice misorientations, Optical quality, Powder diffraction, Powder diffractometry, Scheelite, Seeding, Seeding difficulty, Seeding problem, Single crystal, Single crystals, Small particle, Stainless steel chamber, Thick section, Water vapour.
- Teeft :
- Atomic numbers, Clear material, Cockayne, Component fluorides, Concentrator coil, Crystal diameter, Crystal growth, Czochralski, Czochralski technique, Fluoride, Fluoride scheelites, Growth axis, Growth direction, Laser, Laser characteristics, Laser performance, Last material, Lattice misorientations, Optical quality, Powder diffraction, Powder diffractometry, Scheelite, Seeding, Seeding difficulty, Seeding problem, Single crystal, Single crystals, Small particle, Stainless steel chamber, Thick section, Water vapour.
Abstract
Abstract: The Czochralski single crystal growth and laser characteristics of two fluoride scheelits are compared. These are LiY0.5−x−y 3r0.5TmxHoyF4 and the corresponding compound in which Y is replaced entirely by Lu, both of which lase via the Ho3+ ion at 2.06 μm. The major factors controlling the optical quality of these compounds are also discussed.
Url:
DOI: 10.1016/0022-0248(81)90491-7
Links to Exploration step
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<front><div type="abstract" xml:lang="en">Abstract: The Czochralski single crystal growth and laser characteristics of two fluoride scheelits are compared. These are LiY0.5−x−y 3r0.5TmxHoyF4 and the corresponding compound in which Y is replaced entirely by Lu, both of which lase via the Ho3+ ion at 2.06 μm. The major factors controlling the optical quality of these compounds are also discussed.</div>
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