• Title/Summary/Keyword: Tuning THz-wave

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Frequency Tuning Characteristics of a THz-wave Parametric Oscillator

  • Li, Zhongyang;Bing, Pibin;Xu, Degang;Yao, Jianquan
    • Journal of the Optical Society of Korea
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    • v.17 no.1
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    • pp.97-102
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    • 2013
  • Frequency tuning characteristics of a THz-wave by varying phase-matching angle and pump wavelength in a noncollinear phase-matching THz-wave parametric oscillator (TPO) are analyzed. A novel scheme to realize the tuning of a THz-wave by moving the cavity mirror forwards and backwards is proposed in a noncollinear phase-matching TPO. The parametric gain coefficients of the THz-wave in a $LiNbO_3$ crystal are explored under different working temperatures. The relationship between the poling period of periodically poled $LiNbO_3$ (PPLN) and the THz-wave frequency under the condition of a quasi-phase-matching configuration is deduced. Such analyses have an impact on the experiments of the TPO.

Investigation of Terahertz Generation from Bulk and Periodically Poled LiTaO3 Crystal with a Cherenkov Phase Matching Scheme

  • Li, Zhongyang;Bing, Pibin;Yuan, Sheng;Xu, Degang;Yao, Jianquan
    • Journal of the Optical Society of Korea
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    • v.19 no.3
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    • pp.297-302
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    • 2015
  • Terahertz (THz) wave generation from bulk and periodically poled $LiTaO_3$ (PPLT) with a Cherenkov phase matching scheme is numerically investigated. It is shown that by using the crystal birefringence of bulk $LiTaO_3$ and a grating vector of PPLT, THz waves can be efficiently generated by difference frequency generation (DFG) with a Cherenkov phase matching scheme. The frequency tuning characteristics of the THz wave via varying wavelength of difference frequency waves, phase matching angle, poling period of PPLT and working temperature are theoretically analyzed. The parametric gain coefficient in the low-loss limit and the absorption coefficient of the THz wave during the DFG process in the vicinity of polariton resonances are numerically analyzed. A THz wave can be efficiently generated by utilizing the giant second order nonlinearities of $LiTaO_3$ in the vicinity of polariton resonances.

Investigation of Stimulated Polariton Scattering from the B1-symmetry Modes of the KNbO3 Crystal

  • Li, Zhongyang;Wang, Mengtao;Wang, Silei;Yuan, Bin;Bing, Pibin;Xu, Degang;Yao, Jianquan
    • Current Optics and Photonics
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    • v.2 no.1
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    • pp.90-95
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    • 2018
  • Stimulated polariton scattering from the $B_1$-symmetry modes of a $KNbO_3$ crystal to generate a terahertz wave (THz-wave) with a noncollinear phase-matching scheme is investigated. The frequency-tuning characteristics of the THz-wave by varying the phase-matching angle and pump wavelength are analyzed. The expression for the effective parametric gain length under the noncollinear phase-matching condition is deduced. Parametric gain and absorption characteristics of the THz-wave in $KNbO_3$ are theoretically simulated. The characteristics of $KNbO_3$ for a terahertz parametric oscillator (TPO) are compared to those of $MgO:LiNbO_3$. The analysis indicates that $KNbO_3$ is an excellent optical crystal for a TPO, to enhance the THz-wave output.

Widely Tunable 1.55-${\mu}m$ Detuned Dual-Mode Laser Diode for Compact Continuous-Wave THz Emitter

  • Kim, Nam-Je;Leem, Young-Ahn;Ko, Hyun-Sung;Jeon, Min-Yong;Lee, Chul-Wook;Han, Sang-Pil;Lee, Dong-Hun;Park, Kyung-Hyun
    • ETRI Journal
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    • v.33 no.5
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    • pp.810-813
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    • 2011
  • We report the use of a widely tunable detuned dual-mode laser diode (DML) as a compact and portable continuous-wave THz emitter. The wavelength difference between the two lasing modes of this DML can be tuned from 2.4 nm to 9.3 nm by using integrated microheaters. The power difference between these modes is less than 1 dB, and the side-mode suppression ratio is greater than 30 dB over the entire tuning range.

SOA-Integrated Dual-Mode Laser and PIN-Photodiode for Compact CW Terahertz System

  • Lee, Eui Su;Kim, Namje;Han, Sang-Pil;Lee, Donghun;Lee, Won-Hui;Moon, Kiwon;Lee, Il-Min;Shin, Jun-Hwan;Park, Kyung Hyun
    • ETRI Journal
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    • v.38 no.4
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    • pp.665-674
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    • 2016
  • We designed and fabricated a semiconductor optical amplifier-integrated dual-mode laser (SOA-DML) as a compact and widely tunable continuous-wave terahertz (CW THz) beat source, and a pin-photodiode (pin-PD) integrated with a log-periodic planar antenna as a CW THz emitter. The SOA-DML chip consists of two distributed feedback lasers, a phase section for a tunable beat source, an amplifier, and a tapered spot-size converter for high output power and fiber-coupling efficiency. The SOA-DML module exhibits an output power of more than 15 dBm and clear four-wave mixing throughout the entire tuning range. Using integrated micro-heaters, we were able to tune the optical beat frequency from 380 GHz to 1,120 GHz. In addition, the effect of benzocyclobutene polymer in the antenna design of a pin-PD was considered. Furthermore, a dual active photodiode (PD) for high output power was designed, resulting in a 1.7-fold increase in efficiency compared with a single active PD at 220 GHz. Finally, herein we successfully show the feasibility of the CW THz system by demonstrating THz frequency-domain spectroscopy of an ${\alpha}$-lactose pellet using the modularized SOA-DML and a PD emitter.