Govindhan Dhanaraj is the Manager of Crystal Growth
Technologies at Advanced Renewable Energy Company (ARC Energy) at
Nashua, New Hampshire (USA) focusing on the growth of large size
sapphire crystals for LED lighting applications, characterization
and related crystal growth furnace development. He received his PhD
from the Indian Institute of Science, Bangalore and his Master of
Science from Anna University (India). Immediately after his
doctoral degree, Dr. Dhanaraj joined a National Laboratory,
presently known as Rajaramanna Center for Advanced Technology in
India, where he established an advanced Crystal Growth Laboratory
for the growth of optical and laser crystals. Prior to joining ARC
Energy, Dr. Dhanaraj served as a Research Professor at the
Department of Materials Science and Engineering, Stony Brook
University, NY, and also held a position of Research Assistant
Professor at Hampton University, VA. During his 25 years of focused
expertise in crystal growth research, he has developed optical,
laser and semiconductor bulk crystals and SiC epitaxial films using
solution, flux, Czochralski, Bridgeman, gel and vapor methods, and
characterized them using x-ray topography, synchrotron topography,
chemical etching and optical and atomic force microscopic
techniques. He co-organized a symposium on Industrial Crystal
Growth under the 17th American Conference on Crystal Growth and
Epitaxy in conjunction with the 14th US Biennial Workshop on
Organometallic Vapor Phase Epitaxy held at Lake Geneva, WIin 2009.
Dr. Dhanaraj has delivered invited lectures and also served as
session chairman in many crystal growth and materials science
meetings. He has published over 100 papers and his research
articles have attracted over 250 rich citations.
縮略語
PartC 溶液法生長晶體
17 地球微重力下從溶液中生長體材料單晶
17.1 結(jié)晶:成核和生長動力學(xué)
17.2 低溫溶液的晶體生長
17.3 更低溫度溶液的晶體生長
17.4 硫酸三甘鈦晶體生長:個案研究
17.5 微重力下硫酸三甘鈦晶體的溶液生長
17.6 蛋白質(zhì)晶體生長
17.7 結(jié)語
參考文獻(xiàn)
18 水熱法大尺寸晶體生長
18.1 水熱法晶體生長的歷史
18.2 水熱法晶體生長的熱力學(xué)基礎(chǔ)
18.3 水熱法晶體生長的設(shè)備
18.4 部分晶體的水熱法生長
18.5 精細(xì)晶體的水熱法生長
18.6 水熱法生長納米晶體
18.7 結(jié)語
18.A附錄
參考文獻(xiàn)
19 水熱法與氨熱法生長ZnO和GaN
19.1 水熱法與氨熱法生長大晶體綜述
19.2 低缺陷大晶體的生長要求
19.3 物理與數(shù)學(xué)模型
19.4 過程模擬
19.5 水熱法生長ZnO晶體
19.6 氨熱法生長GaN
19.7 結(jié)論
參考文獻(xiàn)
20 KTP型非線性光學(xué)晶體的化學(xué)計量比和疇結(jié)構(gòu)
20.1 背景
20.2 化學(xué)計量比與鐵電相轉(zhuǎn)變
20.3 生長引起的鐵電疇
20.4 人造疇結(jié)構(gòu)
20.5 非線性光學(xué)晶體
參考文獻(xiàn)
21 高溫溶液生長:用于激光和非線性光學(xué)的晶體
21.1 基礎(chǔ)
21.2 高溫溶液生長
21.3 用TSSG法生長激光體材料和NLO單晶
21.4 液相外延:激光和NLO材料的外延膜的生長
參考文獻(xiàn)
22 KDP及同類晶體的生長與表征
22.1 背景
22.2 結(jié)晶機(jī)制和動力學(xué)
22.3 單晶的生長技術(shù)
22.4 生長條件對晶體缺陷的影響
22.5 晶體質(zhì)量檢測
參考文獻(xiàn)