Effects of Pumping Sizes on THz Radiation Based on Ultrashort Light Pulse Optical Rectification for High Spatial Resolution T-Ray Imaging
XU Shi-Xiang1,2, DAI Xiao-Ming1, YANG Xiao-Hua1, LI Jing-Zhen2
1State Key Laboratory of Precision Spectroscopy, and Department of Physics, East China Normal University, Shanghai 2000622Shenzhen Key Lab of Micro-Nano Photonics Department, Shenzhen University, Shenzhen 518060
Effects of Pumping Sizes on THz Radiation Based on Ultrashort Light Pulse Optical Rectification for High Spatial Resolution T-Ray Imaging
XU Shi-Xiang1,2, DAI Xiao-Ming1, YANG Xiao-Hua1, LI Jing-Zhen2
1State Key Laboratory of Precision Spectroscopy, and Department of Physics, East China Normal University, Shanghai 2000622Shenzhen Key Lab of Micro-Nano Photonics Department, Shenzhen University, Shenzhen 518060
摘要We present our experimental studies on the effects of the pumping sizes on THz radiation based on ultrashort light pulse optical rectification for high spatial resolution T-Ray imaging. Our experiments show that high spatial resolution T-ray imaging requires both thin THz emitter and sample, and rigorous tolerance of the gap between the sample and the emitter, as well as small pumping size which usually much smaller compared with THz wavelength. Such a small pumping size results in dramatic decrease of the THz wave power, which originates from strong diffraction of THz wave, the depolarization of the focused tightly pumping beam, the spatial filtering of the emitter exit-surface, and the strong phase-mismatching between the pumping and the high spatial Fourier components of the THz signal, rather than two-photon absorption
Abstract:We present our experimental studies on the effects of the pumping sizes on THz radiation based on ultrashort light pulse optical rectification for high spatial resolution T-Ray imaging. Our experiments show that high spatial resolution T-ray imaging requires both thin THz emitter and sample, and rigorous tolerance of the gap between the sample and the emitter, as well as small pumping size which usually much smaller compared with THz wavelength. Such a small pumping size results in dramatic decrease of the THz wave power, which originates from strong diffraction of THz wave, the depolarization of the focused tightly pumping beam, the spatial filtering of the emitter exit-surface, and the strong phase-mismatching between the pumping and the high spatial Fourier components of the THz signal, rather than two-photon absorption
(Infrared, submillimeter wave, microwave and radiowave instruments and equipment)
引用本文:
XU Shi-Xiang;DAI Xiao-Ming;YANG Xiao-Hua;LI Jing-Zhen. Effects of Pumping Sizes on THz Radiation Based on Ultrashort Light Pulse Optical Rectification for High Spatial Resolution T-Ray Imaging[J]. 中国物理快报, 2008, 25(12): 4262-4265.
XU Shi-Xiang, DAI Xiao-Ming, YANG Xiao-Hua, LI Jing-Zhen. Effects of Pumping Sizes on THz Radiation Based on Ultrashort Light Pulse Optical Rectification for High Spatial Resolution T-Ray Imaging. Chin. Phys. Lett., 2008, 25(12): 4262-4265.
[1] Usami M et al 2002 Phys. Med. Biol. 47 3749 [2] Shon C H et al 2008 Int. J. Infrared Milli.Waves 29 79 [3] Gompf B et al 2007 Appl. Phys. Lett. 9082104 [4] von Ribbeck H G et al 2008 Opt. Express 163430 [5] Yuan T et al 2004 Infrared Phys. Technol. 45 417 [6] Klein N et al 2005 J. Appl. Phys. 98014910 [7] Yuan T, Xu J Z, and Zhang X C 2003 InternationalWorkshop on Infrared Microscope and Spectroscopy based on AdvancedAccelerator Sources (WIRMS2003) (Lake Tahoe, CA, 9 July 2003) [8] Xu J Z and Zhang X C 2002 Opt. Lett. 27 1067 [9] Dakovski G L, Kubera B and Shan J 2005 J. Opt. Soc.Am. B 22 1667 [10] C\^{ot\'{e D et al 2003 J. Opt. Soc. Am. B 20 1374 [11] Bethe H A 1944 Phys. Rev. 66 163 [12] Bahlmann K and Hell S W 2000 Appl. Phys. Lett. 77 612 [13] Morris J R and Shen Y R 1977 Phys. Rev. A 15 1143
2008, Vol. 25 
