Electrooptics: New Acentric Core Structure for Organic Electrooptic Crystals Optimal for Efficient Optical‐to‐THz Conversion (Advanced Optical Materials 6/2015) | Zendy

Lee SeungHeon | Zendy; Kang BongJoo | Zendy; Kim JiSoo | Zendy; Yoo BaWool | Zendy; Jeong JaeHyeok | Zendy; Lee KangHyun | Zendy; Jazbinsek Mojca | Zendy; Kim Jun Wan | Zendy; Yun Hoseop | Zendy; Kim Jongtaek | Zendy; Lee Yoon Sup | Zendy; Rotermund Fabian | Zendy; Kwon OPil | Zendy

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Electrooptics: New Acentric Core Structure for Organic Electrooptic Crystals Optimal for Efficient Optical‐to‐THz Conversion (Advanced Optical Materials 6/2015)

Author(s) -

Lee SeungHeon,

Kang BongJoo,

Kim JiSoo,

Yoo BaWool,

Jeong JaeHyeok,

Lee KangHyun,

Jazbinsek Mojca,

Kim Jun Wan,

Yun Hoseop,

Kim Jongtaek,

Lee Yoon Sup,

Rotermund Fabian,

Kwon OPil

Publication year - 2015

Publication title -

advanced optical materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.89

H-Index - 91

ISSN - 2195-1071

DOI - 10.1002/adom.201570037

Subject(s) - acentric factor , materials science , terahertz radiation , optoelectronics , broadband , core (optical fiber) , optics , optical materials , crystallography , physics , chemistry , composite material

On page 756, F. Rotermund, O.‐P. Kwon, and co‐workers describe organic electro‐optic crystals based on a new acentric core structure OHQ provide optimal molecular packing, which maximizes the electro‐optic response and allows intense broadband THz generation with a THz generation efficiency over 30 times higher than the widely used inorganic ZnTe.

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