周期性极化铷钾钛氧磷酸盐晶体中产生的微焦级多周期太赫兹波
µJ-level multi-cycle terahertz generation in a periodically poled Rb:KTP crystal.
作者信息
Tian Wenlong, Cirmi Giovanni, Olgun Halil T, Mutter Patrick, Canalias Carlota, Zukauskas Andrius, Wang Lu, Kueny Elias, Ahr Frederike, Calendron Anne-Laure, Reichert Fabian, Hasse Kore, Hua Yi, Schimpf Damian N, Çankaya Hüseyin, Pergament Mikhail, Hemmer Michael, Matlis Nicholas, Pasiskevicius Valdas, Laurell Fredrik, Kärtner Franz X
出版信息
Opt Lett. 2021 Feb 15;46(4):741-744. doi: 10.1364/OL.413410.
We demonstrate multi-cycle terahertz (MC-THz) generation in a 15.5 mm long periodically poled rubidium (Rb)-doped potassium titanyl phosphate (Rb:PPKTP) crystal with a poling period of 300 µm. By cryogenically cooling the crystal to 77 K, up to 0.72 µJ terahertz energy is obtained at a frequency of 0.5 THz with a 3 GHz bandwidth. A maximum internal optical-to-terahertz conversion efficiency of 0.16% is achieved, which is comparable with results achieved using periodically poled lithium niobate crystal. Neither photorefractive effects nor damage was observed with up to 900/, showing the great potential of Rb:PPKTP for multi-millijoule-level MC-THz generation.
我们展示了在一块长15.5毫米、极化周期为300微米的周期性极化掺铷磷酸钛氧钾(Rb:PPKTP)晶体中产生多周期太赫兹(MC-THz)波。通过将晶体低温冷却至77K,在0.5THz频率、3GHz带宽下可获得高达0.72微焦的太赫兹能量。实现了0.16%的最大内部光到太赫兹转换效率,这与使用周期性极化铌酸锂晶体所取得的结果相当。在高达900/的情况下未观察到光折变效应和损伤,这表明Rb:PPKTP在产生数毫焦耳级MC-THz波方面具有巨大潜力。
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