Title :
Growth of CdGeAs/sub 2/ for mid- to far-IR frequency conversion
Author :
Schunemann, Peter G.
Author_Institution :
Sanders Associates Inc., Nashua, NH, USA
Abstract :
Summary form only given. Cadmium germanium arsenide, CdCeAs/sub 2/, has long been sought after as a promising frequency conversion material for the mid- to far-infrared based on its high nonlinear optical coefficient (236 pm/V, the highest of any known compound) and potentially wide transparency range (2.3-17 /spl mu/m) The material also has a high thermal conductivity which is desirable for high average power applications. The difficulty in achieving such crystals arises from a persistently concave solid-liquid interface shape during growth (which favors polycrystallinity) and from a 14-fold anisotropy in thermal expansion coefficient between the a and c axes (which almost inevitably causes severe cracking). We have largely overcome these difficulties using the horizontal gradient freeze growth technique.
Keywords :
cadmium compounds; crystal growth from melt; germanium compounds; infrared sources; optical frequency conversion; optical materials; ternary semiconductors; thermal conductivity; transparency; 2.7 to 17 mum; CdCeAs/sub 2/; CdGeAs/sub 2/; anisotropy; cadmium germanium arsenide; concave solid-liquid interface shape; crystal growth from melt; far-IR frequency conversion; frequency conversion material; high average power applications; high nonlinear optical coefficient; high thermal conductivity; horizontal gradient freeze growth technique; mid-IR frequency conversion; polycrystallinity; potentially wide transparency range; severe cracking; thermal expansion coefficient; Cadmium compounds; Conducting materials; Crystalline materials; Crystals; Frequency conversion; Germanium; Nonlinear optics; Optical materials; Shape; Thermal conductivity;
Conference_Titel :
Lasers and Electro-Optics, 1996. CLEO '96., Summaries of papers presented at the Conference on
Conference_Location :
Anaheim, CA, USA
Print_ISBN :
1-55752-443-2
