Growth and characterization of large CdSiP sub(2) single crystals

Large, optically transparent crystals of CdSiP sub(2) (CSP) have been grown for the first time from a stoichiometric melt. The material is a high temperature analog to ZnGeP sub(2) with promising characteristics for IR frequency conversion. Crystals are birefringent and are transparent from 0.5 to 9...

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Veröffentlicht in:	Journal of crystal growth 2010-04, Vol.312 (8), p.1127-1132
Hauptverfasser:	Zawilski, Kevin T, Schunemann, Peter G, Pollak, Thomas C, Zelmon, David E, Fernelius, Nils C, Hopkins, FKenneth
Format:	Artikel
Sprache:	eng
Schlagworte:	Crack propagation Crystals Halogens Single crystals Thermal conductivity Thermal expansion Thermal properties Transport Twinning
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creator	Zawilski, Kevin T Schunemann, Peter G Pollak, Thomas C Zelmon, David E Fernelius, Nils C Hopkins, FKenneth
description	Large, optically transparent crystals of CdSiP sub(2) (CSP) have been grown for the first time from a stoichiometric melt. The material is a high temperature analog to ZnGeP sub(2) with promising characteristics for IR frequency conversion. Crystals are birefringent and are transparent from 0.5 to 9 mu m. Polycrystalline charges were successfully synthesized from high purity elemental starting materials by two-temperature vapor transport despite the very high equilibrium vapor pressure (22 atm) at the melting point of CdSiP sub(2) (1133 degree C). Single crystals were grown using the horizontal gradient freeze (HGF) technique in high-temperature transparent furnaces. Over the course of several growth runs, the material proved to be prone to cracking and to twinning along (1 1 2) planes. Twinning was eliminated by seeded growth along directions normal to the 112 planar boundaries. Further modifications to growth conditions resulted in high optical quality, crack- and twin-free single crystals 70x25x8 mm super(3). The largest CdSiP sub(2) single crystals previously reported in the literature were grown through either halogen assisted vapor transport or from a molten Sn flux and measured 2x2x0.2 mm super(3). The HGF growth of large CdSiP sub(2) crystals has allowed several bulk properties to be measured for the first time, including the thermal expansion coefficients, thermal conductivity, and wavelength dependent birefringence and dispersion. Measurements of the optical and thermal properties reveal this to be an extremely promising material for 1-, 1.5-, and 2 mu m-pumped mid-IR lasers.
doi_str_mv	10.1016/j.jcrysgro.2009.10.034
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language	eng
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source	Elsevier ScienceDirect Journals Complete
subjects	Crack propagation Crystals Halogens Single crystals Thermal conductivity Thermal expansion Thermal properties Transport Twinning
title	Growth and characterization of large CdSiP sub(2) single crystals
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