High-energy, continuously tunable intracavity terahertz-wave parametric oscillator

Yao, Jianquan; Wang, Y. Y.; Xu, De Gang; Zhong, Kai; Wang, Z.; Wang, P.

doi:10.1109/icimw.2009.5325753

Cited by 2 publications

(1 citation statement)

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“…THz 提高到了 0.8~3.1 THz。王伟涛等 [35] 利用浅表面出射结构，对条在一定程度上增大 THz 输出调谐的难度 [36] 。内腔结构 TPO 由 Edwards 等 [37] [38] 对内腔 TPO 进行了大量研究。他们通过在侧面抽运的 Nd:YAG 调 Q 激光器腔内放置 MgO:LiNbO3 晶体形成内腔结构 TPO，获得了频率调谐范围为 1.4~2.5 THz 的高功率 THz 波输出。浅表面出射结构用在内腔结构 TPO 实验中也得到了良好的结果。李忠洋等 [39] 利用侧面抽运技术与一块大体积 MgO: LiNbO3 晶体组成的浅表出射 TPO 结构，如图 7 所示，有效降低了 THz 波的吸收和振荡阈值，极大提高了抽运光到 THz 波的转换效率。还有一种腔增强结构 TPO。这种结构实际上是外腔 TPO 的改进结构，核心思想就是增加对抽运光的反射使之与斯托克斯光同时振荡，减小 TPO 的抽运阈值。2009 年 Molter 等 [40] 首次采用 PPLN 晶体和腔增强结构 TPO 实现了 1.5 THz 的脉冲输出。近几年 Takida 等 [41][42] 一直致力于腔增强结构 TPO 的研究。图 8 所示为…”

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Progress of Terahertz Parametric Oscillator

Weifan¹,

Baoshan²,

Wei³

2014

激光与光电子学进展

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Terahertz (THz)-wave has brought huge application prospect to the study of basic disciplines, medical imaging and nondestructive testing, for its unique features in spectrum and transmission performance, and it has significant scientific strategic importance. The development process of THz-wave parametric oscillator (TPO) is mainly summarized from several aspects: nonlinear crystals used in THz generation, resonator structures including external cavity, intra-cavity and pump-enhanced cavity, THz wave output coupling schemes, surface-emitted structure, pump light parameters and injection seeding. With the development of new materials and new structures, TPO will play an important role in more fields.

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Section: -unclassified

Progress of Terahertz Parametric Oscillator

Weifan¹,

Baoshan²,

Wei³

2014

激光与光电子学进展

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Modeling for extracavity-pumped terahertz parametric oscillators

Wang

Fan

Chen³

et al. 2022

Opt. Express

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This paper presents a modeling method for extracavity-pumped terahertz parametric oscillators (TPO) based on stimulated polariton scattering, in which the pumping beam is from a different laser, and the Stokes beam oscillates in its cavity. After suitable approximations and assumptions, the average THz wave amplitude in the nonlinear crystal is expressed as a function of the fundamental and Stokes wave amplitudes. Then the rate equation for the Stokes wave is obtained based on the Stokes wave increment within a cavity roundtrip timescale. After solving the Stokes wave rate equation, the Stokes wave temporal evolution is considered as a known parameter, and the properties of the residual fundamental and terahertz waves are obtained by numerically solving the coupled wave equations. This modeling method is applied to an extracavity-pumped TPO based on MgO:LiNbO3 crystal. The simulation results are basically consistent with the experimental results. The main reasons causing the deviations of the simulation results from the experimental results are analyzed. To the best of our knowledge, this is the first time to perform the modeling for extracavity-pumped Q-switched TPOs.

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High-energy, continuously tunable intracavity terahertz-wave parametric oscillator

Cited by 2 publications

References 3 publications

Progress of Terahertz Parametric Oscillator

Progress of Terahertz Parametric Oscillator

Modeling for extracavity-pumped terahertz parametric oscillators

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