Temperature dependent narrow-band terahertz pulse generation in periodically poled crystals via difference frequency generation

N.E. Yu; K.S. Lee; D.-K. Ko; C. Kang; S. Takekawa; K. Kitamura

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Temperature dependent narrow-band terahertz pulse generation in periodically poled crystals via difference frequency generation

机译：通过差频产生在周期性极化晶体中产生温度相关的窄带太赫兹脉冲

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摘要

Femtosecond optical pulse is used to generate narrow-band terahertz pulses depending on a quasi-phase-matched condition in periodically poled lithium niobate (PPLN) and stoichiometric lithium tantalate (PPSLT) crystals by difference frequency generation. The origin of narrow-band THz generation proved that the two frequency components of the fs pulse contribute to the frequency mixing. By cryogenic cooling, the absorption of THz waves in the crystal is significantly reduced which results in efficient THz generation. Simultaneously generated forward and backward THz pulses were 1.38 and 0.65 THz with as narrow as the bandwidth of 32 GHz in the PPSLT sample. Temperature dependence of the generated THz waveforms had good agreement with the simulation result using one dimensional plane-wave propagation model.

机译：飞秒光脉冲用于通过周期性产生差频，在周期极化的铌酸锂（PPLN）和化学计量的钽酸锂（PPSLT）晶体中根据准相位匹配条件生成窄带太赫兹脉冲。产生窄带太赫兹的起源证明，fs脉冲的两个频率分量有助于混频。通过低温冷却，晶体中太赫兹波的吸收显着降低，从而有效地产生了太赫兹。在PPSLT样本中，同时产生的正向和反向THz脉冲分别为1.38和0.65 THz，窄至32 GHz的带宽。生成的太赫兹波形的温度依赖性与使用一维平面波传播模型的仿真结果具有良好的一致性。

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《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2011年第5期|共6页
作者
N.E. Yu; K.S. Lee; D.-K. Ko; C. Kang; S. Takekawa; K. Kitamura;
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正文语种 eng
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Quasi-phase matching; Terahertz generation; Difference frequency generation;

机译：准相位匹配;太赫兹产生;差分频率产生;

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1. Temperature dependent narrow-band terahertz pulse generation in periodically poled crystals via difference frequency generation [J] . N.E. Yu, K.S. Lee, D.-K. Ko, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第5期

机译：通过差频产生在周期性极化晶体中产生温度相关的窄带太赫兹脉冲
2. TERAHERTZ-WAVE DIFFERENCE FREQUENCY GENERATION IN PERIODICALLY POLED LiNbO3 CRYSTAL [J] . V. R. Tadevosyan Journal of contemporary physics . 2005,第1期

机译：周期性POLED LiNbO3晶体的TERAHERTZ波差频率产生
3. Pulsed High Peak Power Millimeter Wave Generation via Difference Frequency Generation Using Periodically Poled Lithium Niobate [J] . Koji Suizu, Takayuki Shibuya, Shigehiro Nagano, Japanese Journal of Applied Physics. Part 2, Letters & Express Letters . 2007,第a36a40aPt2期

机译：使用周期极化铌酸锂通过差频产生脉冲高峰值功率毫米波
4. Forward and backward terahertz-wave difference-frequency generations from periodically poled lithium niobate [C] . Wang T. D., Lin S. T., Lin Y. Y., Lasers amp; Electro Optics amp; The Pacific Rim Conference on Lasers and Electro-Optics, 2009. CLEO/PACIFIC RIM '09 . 2009

机译：周期性极化铌酸锂产生的向前和向后太赫兹波差异频率
5. Highly efficient single frequency blue laser generation by second harmonic generation of infrared lasers using quasi phase matching in periodically poled ferroelectric crystals. [D] . Khademian, Ali. 2015

机译：通过在周期性极化的铁电晶体中使用准相位匹配，通过红外激光的二次谐波生成来产生高效的单频蓝色激光。
6. Spectral purity and tunability of terahertz quantum cascade laser sources based on intracavity difference-frequency generation [O] . Luigi Consolino, Seungyong Jung, Annamaria Campa, 2017

机译：基于腔内差频产生的太赫兹量子级联激光源的光谱纯度和可调谐性
7. Temperature Dependent Terahertz Generation at Periodically Poled Stoichiometric Lithium Tantalate Crystal Using Femtosecond Laser Pulses [O] . N.E. Yu, C. Kang, H.K. Yoo, 2008

机译：使用飞秒激光脉冲在周期性极化化学计量锂钽晶晶体中的温度依赖于太赫兹。使用飞秒激光脉冲

Temperature dependent narrow-band terahertz pulse generation in periodically poled crystals via difference frequency generation

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