晶体生长手册3：熔液法晶体生长技术

　　《Springer手册精选系列·晶体生长手册（第3册）：熔液法晶体生长技术（影印版）》关注了溶液生长法。在前两章里讨论了水热生长法的不同方面，随后的三章介绍了非线性和激光晶体、KTP和KDP。通过在地球上和微重力环境下生长的比较给出了重力对溶液生长法的影响的知识。

　　Govindhan Dhanaraj is the Manager of Crystal GrowthTechnologies at Advanced Renewable Energy Company （ARC Energy） atNashua， New Hampshire （USA） focusing on the growth of large sizesapphire crystals for LED lighting applications， characterizationand related crystal growth furnace development. He received his PhDfrom the Indian Institute of Science， Bangalore and his Master ofScience from Anna University （India）. Immediately after hisdoctoral degree， Dr. Dhanaraj joined a National Laboratory，presently known as Rajaramanna Center for Advanced Technology inIndia， where he established an advanced Crystal Growth Laboratoryfor the growth of optical and laser crystals. Prior to joining ARCEnergy， Dr. Dhanaraj served as a Research Professor at theDepartment of Materials Science and Engineering， Stony BrookUniversity， NY， and also held a position of Research AssistantProfessor at Hampton University， VA. During his 25 years of focusedexpertise in crystal growth research， he has developed optical，laser and semiconductor bulk crystals and SiC epitaxial films usingsolution， flux， Czochralski， Bridgeman， gel and vapor methods， andcharacterized them using x-ray topography， synchrotron topography，chemical etching and optical and atomic force microscopictechniques. He co-organized a symposium on Industrial CrystalGrowth under the 17th American Conference on Crystal Growth andEpitaxy in conjunction with the 14th US Biennial Workshop onOrganometallic Vapor Phase Epitaxy held at Lake Geneva， WIin 2009.Dr. Dhanaraj has delivered invited lectures and also served assession chairman in many crystal growth and materials sciencemeetings. He has published over 100 papers and his researcharticles have attracted over 250 rich citations.

缩略语PartC 溶液法生长晶体17 地球微重力下从溶液中生长体材料单晶17.1 结晶：成核和生长动力学17.2 低温溶液的晶体生长17.3 更低温度溶液的晶体生长17.4 硫酸三甘钛晶体生长：个案研究17.5 微重力下硫酸三甘钛晶体的溶液生长17.6 蛋白质晶体生长17.7 结语参考文献 18 水热法大尺寸晶体生长18.1 水热法晶体生长的历史18.2 水热法晶体生长的热力学基础18.3 水热法晶体生长的设备18.4 部分晶体的水热法生长18.5 精细晶体的水热法生长18.6 水热法生长纳米晶体18.7 结语18.A附录参考文献 19 水热法与氨热法生长ZnO和GaN19.1 水热法与氨热法生长大晶体综述19.2 低缺陷大晶体的生长要求19.3 物理与数学模型19.4 过程模拟19.5 水热法生长ZnO晶体19.6 氨热法生长GaN19.7 结论参考文献 20 KTP型非线性光学晶体的化学计量比和畴结构20.1 背景20.2 化学计量比与铁电相转变20.3 生长引起的铁电畴20.4 人造畴结构20.5 非线性光学晶体参考文献 21 高温溶液生长：用于激光和非线性光学的晶体21.1 基础21.2 高温溶液生长21.3 用TSSG法生长激光体材料和NLO单晶21.4 液相外延：激光和NLO材料的外延膜的生长参考文献 22 KDP及同类晶体的生长与表征22.1 背景22.2 结晶机制和动力学22.3 单晶的生长技术22.4 生长条件对晶体缺陷的影响22.5 晶体质量检测参考文献