<![CDATA[Frequency-doubled green picosecond laser based on K <ce:inf loc='post'>3</ce:inf>B <ce:inf loc='post'>6</ce:inf>O <ce:inf loc='post'>10</ce:inf>Br nonlinear optical crystal]]>

Luping Meng; Ling Zhang; Zhanyu Hou; Lirong Wang; Hui Xu; Meng Shi; Lingwu Wang; Yingying Yang; Yaoyao Qi; Chaojian He; Haijuan Yu; Xuechun Lin; Fufang Su; Mingjun Xia; Rukang Li

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3B 6O 10Br nonlinear optical crystal]]>

机译： 10 BR非线性光学晶体]]>

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?The frequency-doubled green ps laser based on new crystal KBB is studied in detail.

?The output power of ps green laser and the conversion efficiency are investigated.

?The maximum power of 3?W green ps laser was generated with pulse width of 38?ps.

Abstract

We report a frequency-doubled green picosecond (ps) laser based on K3B6O10Br (KBB) nonlinear optical crystal with cutting angle of θ?=?34.7° and Φ?=?30°. Through intracavity frequency doubling using a type I phase-matched KBB crystal with dimensions of 4?mm?×?4?mm?×?13.2?mm, the average output power of 185.00?mW green ps laser was obtained with a repetition rate of 80?MHz and pulse width of 25.0?ps. In addition, we present external frequency doubling using KBB crystal. The average output power of 3.00?W green ps laser was generated with a repetition rate of 10?kHz and pulse width of 38.1?ps, which corresponds to a pulse energy of 0.30?mJ and a peak power 7.89?MW, r

机译：<！[cdata [

亮点

？详细研究了基于新晶体Kbb的频率加倍的绿色ps激光。

？输出调查PS绿色激光的力量和转换效率。

？使用38Ω·ps的脉冲宽度产生3·w绿色ps激光的最大功率。 < / ce：list>

抽象

我们报告基于K 3 B 6 O 10 BR（KBB）非线性光学晶体，切割角θα=Δ= 34.7°和φ≤= 30°。通过使用I型相位匹配的KBB晶体的腔内频率加倍，其尺寸为4ΩΩ·×4？4？××13.2？mm，185.00×MW绿色PS激光器的平均输出功率以重复率获得80？MHz和脉冲宽度为25.0？PS。此外，我们使用KBB晶体呈现外部频率加倍。产生3.00·W的平均输出功率为38.1 kHz的重复率和38.1·ps的脉冲宽度，这对应于0.30Ωmj和峰值功率7.89？mw，r

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来源
《Optics & Laser Technology》 |2018年第2018期|共3页
作者
Luping Meng; Ling Zhang; Zhanyu Hou; Lirong Wang; Hui Xu; Meng Shi; Lingwu Wang; Yingying Yang; Yaoyao Qi; Chaojian He; Haijuan Yu; Xuechun Lin; Fufang Su; Mingjun Xia; Rukang Li;
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作者单位

Institute of Physical Engineering Qufu Normal University;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Beijing Center for Crystal Research and Development Key Laboratory of Functional Crystal and Laser Technology Technical Institute of Physics and Chemistry Chinese Academy of Science;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Institute of Physical Engineering Qufu Normal University;

Institute of Physical Engineering Qufu Normal University;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Laboratory of All-solid-state Light Sources Institute of Semiconductors Chinese Academy of Sciences;

Institute of Physical Engineering Qufu Normal University;

Beijing Center for Crystal Research and Development Key Laboratory of Functional Crystal and Laser Technology Technical Institute of Physics and Chemistry Chinese Academy of Science;

Beijing Center for Crystal Research and Development Key Laboratory of Functional Crystal and Laser Technology Technical Institute of Physics and Chemistry Chinese Academy of Science;

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3B 6O 10Br nonlinear optical crystal]]>

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