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首页> 外文会议>International Conference on "Multidimensional Role of Basic Science in Advanced Technology" >Analysis of Some Properties of Alanine doped KDP Single Crystals Grown by Conventional, Rotation and Sankaranarayanan-Ramasamy (SR) Method
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Analysis of Some Properties of Alanine doped KDP Single Crystals Grown by Conventional, Rotation and Sankaranarayanan-Ramasamy (SR) Method

机译:常规,旋转和SankaraArayanan-Ramasamy(SR)方法生长的丙氨酸掺杂KDP单晶的一些性质分析

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摘要

Potassium Dihydrogen Phosphates (KDP) crystal has been studied since near the beginning 1930s.Nonlinear optic (NLO) is a new leading edge of science and technology playing a major role in the emerging epoch of photonics. Photonics involves the application of photons for information and image processing and is branded to be the technology of the 21 st century wherein nonlinear optical processes have applications in the essential functions such as the electro-optic modulator, Q-switches, the ultrasonic transducer, the shutter for high-speed photography, frequency doubling and high power laser frequency conversion for fusion research. In reply to these applications, the elevated quality KDP single crystals are required. In this study, the KDP single crystals were grown by three method that is Conventional, Rotation and Sankaranarayanan-Ramasamy (SR) method. The crystal grown by Rotation and SR method has better quality, smaller amount defects, higher hardness and density, and SR method grown crystal have Higher NLO property.
机译:自1930年代开始以来已经研究了二氢磷酸钾(KDP)晶体。Nonlinear Optic(NLO)是科学技术的新领先优势,在光子学的新兴时期发挥着重要作用。光子学涉及光子的信息和图像处理的应用和是品牌为21世纪,其中非线性光学过程具有诸如电光调制器,Q开关,超声换能器中,在基本功能的应用程序的技术用于高速摄影,倍频和高功率激光频率转换的快门,用于融合研究。在回复这些应用中,需要高质量的KDP单晶。在该研究中,通过三种方法生长了KDP单晶,其常规,旋转和SankArAnarayanan-Ramasamy(SR)方法。通过旋转和Sr方法生长的晶体具有更好的质量,较小的量缺陷,更高的硬度和密度,生长晶体的SR方法具有更高的NLO性能。

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