Publication | Closed Access
Phase-Sensitive Terahertz Self-Heterodyne System Based on Photodiode and Low-Temperature-Grown GaAs Photoconductor at 1.55 $\mu{\rm m}$
69
Citations
23
References
2012
Year
Thz PhotonicsTerahertz TechnologyEngineeringOptoelectronic DevicesTerahertz PhotonicsTerahertz PhysicsTerahertz Material PropertiesContinuous TerahertzCompound SemiconductorPhotonicsElectrical EngineeringTerahertz SpectroscopyLow-temperature-grown Gaas PhotoconductorTerahertz SciencePhase Change MeasurementMicrowave PhotonicsThz WaveTerahertz DevicesApplied PhysicsTerahertz TechniqueOptoelectronicsTerahertz Applications
We propose and demonstrate a technique for phase change measurement of a continuous terahertz (THz) wave, based on 1.55- μm photonic techniques. The generation of the THz wave is based on photomixing using a uni-traveling-carrier photodiode. The detection of the THz wave is based on heterodyne mixing of the THz wave, using a low-temperature-grown GaAs photoconductor with frequency-shifted photonic local oscillator signal. The measurement of a phase shift induced by a single sheet of paper with 85-μm thickness has been demonstrated at 300 GHz.
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