Efficient parametric terahertz generation in quasi-phase-matched GaP through cavity enhanced difference-frequency generation

Eliot B. Petersen,Wei Shi,Arturo Chavez-Pirson,N. Peyghambarian,Adam T. Cooney

Efficient parametric terahertz generation in quasi-phase-matched GaP through cavity enhanced difference-frequency generation

2011

Eliot B. Petersen
Wei Shi
Arturo Chavez-Pirson
N. Peyghambarian
Adam T. Cooney

We report an efficient parametric terahertz (THz) source by using bonded quasi-phase-matched (QPM) GaP crystals pumped by the C-band pulsed fiber lasers in a master oscillator power amplifier configuration, based on difference frequency generation (DFG). We observed that the QPM-GaP crystals can effectively increase the THz generation power and efficiency by increasing the number of periods. Moreover, we observed external cavity enhanced THz DFG by placing the QPM-GaP crystal in an external ring cavity. The THz cavity enhancement factor of approximately 250 has been achieved in comparison with a single-pass THz DFG. The maximum THz average power can reach 339 μW, corresponding to a power conversion efficiency of 2.43×10−4 and a quantum efficiency of 3.16%.

Keywords:

Fiber laser
Optical pumping
Amplifier
Laser
Quantum efficiency
Optics
Terahertz radiation
Optical fiber
High harmonic generation
Physics
Optoelectronics
Energy conversion efficiency
Crystal

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