W. S. Wang
Texas A&M University
13 Papers
101 Citations
W. S. Wang is an academic researcher from Texas A&M University. The author has contributed to research in topics: Solubility & Aqueous solution. The author has an hindex of 7, co-authored 13 publications.
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Papers
Solvent effects and polymorphic transformation of organic nonlinear optical crystal L-pyroglutamic acid in solution growth processes: I. Solvent effects and growth morphology
W. S. Wang,Mohan D. Aggarwal,J. Choi,Tesfaye Gebre,Angela Shields,Benjamin G. Penn,Donald O. Frazier +6 more
TL;DR: In this article, single crystals of a new promising nonlinear optical material for the tunable UV harmonic generation, l -pyroglutamic acid 60×20×20mm 3 in size were obtained from aqueous solution by using the temperature-lowering method.
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Bulk growth of high quality nonlinear optical crystals of L-arginine tetrafluoroborate (L-AFB)
Constance A. Owens,Kamala N. Bhat,W. S. Wang,A Tan,Mohan D. Aggarwal,Benjamin G. Penn,Donald O. Frazier +6 more
TL;DR: Bulk single crystals of Larginine tetrafluoroborate (L-AFB) have been successfully grown from solution by the temperature lowering method as mentioned in this paper, even though the mother liqueur became viscous.
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Czochralski and modified Bridgman-Stockbarger growth of pure, Cd2+ and Nd3+ doped benzil single crystals
TL;DR: In this paper, a second harmonic generation of pure benzil from Nd:YAG laser radiation of λ = 1.06 μm with a conversion efficiency η = I 2w /I w = 0.4% was demonstrated.
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Crystal growth and optical properties of 4-aminobenzophenone crystals for NLO applications
TL;DR: In this article, single crystals of 4-aminobenzophenone, a nonlinear optical (NLO) material have been grown successfully by a novel solution growth as well as modified Bridgman-Stockbarger techniques.
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Photonic crystals: Crystal growth processing and physical properties
Mohan D. Aggarwal,W. S. Wang,Kamala N. Bhat,Benjamin G. Penn,Donald O. Frazier +4 more
- 01 Jan 2001
TL;DR: In this paper, the authors discuss crystal growth fundamentals and the dependence of the crystal-growth process on the physical and chemical state of the solid-liquid interface, and provide adequate details for fabricating the systems designed and used in laboratory for the growth of high quality crystals.
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