Design of a novel low-background spectrometer for infrared sensitive detection

GAO Ji-Hong; JIA Jing-Yue; HAO Ming-Rui; SHEN Wen-Zhong; ZHANG Yue-Heng

doi:10.11972/j.issn.1001-9014.2015.05.004

[1] Griffiths P R, de Haseth J A. Fourier Transform Infrared Spectrometry [M]. New York: John Wily & Sons, 2006, 161-175.

[2] Rogalski A. Infrared detectors: an overview [J]. Infrared Physics & Technology, 2002, 43(3): 187-210.

[3] Yang Y, Liu H C, Hao M R, et al. Investigation on the limit of weak infrared photodetection [J]. Journal of Applied Physics, 2011, 110(7): 074501-074506.

[4] Griffiths P R, de Haseth J A. Fourier Transform Infrared Spectrometry [M]. New York: John Wily & Sons, 2006, 97-142.

[5] Moehlmann J G, Gleaves J T, Hudgens J W, et al. Infrared chemiluminescence studies of the reaction of fluorine atoms with monosubstituted ethylene compounds [J]. The Journal of Chemical Physics, 1974, 60(12): 4790-4799.

[6] John S, Vanasse G A. Lamellar Grating Far-Infrared Interferomer [J]. J Opt Soc Am, 1960, 50:113-118.

[7] Manzardo O, Michaely R, Schadelin F, et al. Miniature lamellar grating interferometer based on silicon technology [J]. Optics Letters, 2004, 29(13): 1437-1439.

[8] Lee F, Zhou G, Yu H, et al. A MEMS-based resonant-scanning lamellar grating Fourier transform micro-spectrometer with laser reference system [J]. Sensors and Actuators A: Physical, 2009, 149(2): 221-228.

[9] Merenda F, Buhler S, Farah H, et al. Portable NIR/MIR Fourier-transform spectrometer based on a common path lamellar grating interferometer. Next-Generation Spectroscopic Technologies III, 2010 [C]. Orlando Florida: [s.n.], 2010, 7680: 76800V-76800V-12

[10] Heribert E, Mira N, John R F. A simple interferometer for the characterization of sources at terahertz frequencies [J]. Measurement Science and Technology, 2007, 18(8): 2623.

[11] Henry R L, Tanner D B. A lamellar grating interferometer for the far-infrared [J]. Infrared Physics, 1979, 19(2): 163-174.

[12] Naftaly M, Malcoci A, Eisele H. A sensitive broadband detector for room-temperature operation of a simple Terhertz Fourier-transform spectrometer. Joint 31st Int.conf. Infrared and Millimeter Waves and 14th Int. Conf. Terhertz Electronics, 2006 [C]. Shanghai, China: [s:n], 2006:35-35.

[13] Schneider H, Liu H C. Quantum Well Infrared Photodetectors: Physics and Applications [M]. Berlin Springer, 2007,5-10.

[14] Onur Ferhanoglu H R S, Stephan Lüttjohann. Lamellar grating optimization for miniaturized fourier transform spectrometers [J]. Optics Express, 2009, 17(23): 21289-21301.

[17] Rogalski A. Infrared detectors: status and trends [J]. Progress in Quantum Electronics, 2003, 27(2-3): 59-210.

[18] Rogalski A. Comparison of the performance of quantum well and conventional bulk infrared photodetectors [J]. Infrared Physics & Technology, 1997, 38(5): 295-310.