Highly-Efficient Optical Second Harmonic Generation from Centro-­symmetric Single­‐Crystalline KDP Microstructures

报告人: L. Deng (Quantum Measurement Division, NIST)

报告时间: 2016年3月31日 16:00

报告地点: 理科楼郑裕彤大讲堂

摘要:Non-centrosymmetric Potassium Di-hydrogen Phosphate (KH2PO4 or KDP) is arguably the most extensively studied nonlinear optical crystal in history. It has prolific applications ranging from 

simple laser pointers to laser inertial confinement fusion systems. Fundamental physics dictates that in a bulk optical medium the molecular structure and packing arrangements must possess non-centrosymmetric

properties in order to give rise to a significant second-order nonlinear optical susceptibility with which optical second-harmonic generation (SHG) can be realized. Here, we report room-temperature quasi

one-dimensional self-assembled, single-crystalline KDP hexagonal hollow-core and solid-core micro-structures with a highly centro-symmetric molecular structure and a packing arrangement identical to 

the type IV KDP monoclinic crystal phase that has only been seen at extremely high pressure (1.6 Gbar) and thought not to exist under ambient conditions. We show that highly efficient optical SHG

arises from a weak-symmetry-breaking twin crystal lattice in these centro-symmetric self-assembled microstructures of volumes <10-3 mm^3, which would be otherwise strongly forbidden.