| 光谱学与光谱分析 |
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| Terahertz Spectroscopic Inspection and Analysis of Xylitol and D-Xylose |
| LIANG Cheng-sen, ZHAO Guo-zhong* |
| Department of Physics,Capital Normal University,Beijing Key Laboratory of Terahertz Spectroscopy and Imaging,Key Laboratory of Terahertz Optoelectronics, Ministry of Education,Beijing 100048,China |
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Abstract In the present paper, THz spectra of xylitol and D-xylose are measured at room temperature in the frequency region of 0.3~2.6 THz. The results show that characteristic absorption peak of D-xylose was found at 1.67, 1.96 and 2.46 THz, and those of xylitol at 1.62, 1.87 and 2.51 THz. At the same time, density functional theory was applied to obtain the structure and vibration frequencies of the single molecules of two samples in THz region. The simulation results reveal that some of the absorption peaks result from the intra-molecular modes, while the others have to be attributed to intermolecular interaction or phonon modes.
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Received: 2010-05-10
Accepted: 2010-08-20
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Corresponding Authors:
ZHAO Guo-zhong
E-mail: guozhong-zhao@mail.cnu.edu.cn
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[1] XU Jing-zhou,ZHANG Xi-cheng(许景周,张希成). Terahertz Science Technology and Applications(太赫兹科学技术和应用). Beijing:Peking University Press(北京:北京大学出版社),2007.
[2] YUE Wei-wei,WANG Wei-ning,ZHAO Guo-zhong,et al(岳伟伟,王卫宁,赵国忠,等). Acta Phys. Sin.(物理学报),2005,54(7):3094.
[3] Smye S W, Chamberlain J M, Fitzgerald A J, et al. Physics in Medicine and Biology, 2001, 46(9): 101.
[4] Kohji Yamamoto, Mariko Yamaguchi, Fumiaki Miyamaru, et al. Japanese Journal of Applied Physics, 2004, 43(3B): 414.
[5] Kanamori T, Tsujikawa K, Iwata Y T, et al. IEEE, Spectroscopy and Material Properties, 2005, 1: 180.
[6] Kaori Fukunaga, Yuichi Ogawa, Shin’ichiro Hayashi, et al. IEICE Electronics Express, 2007, 4(8): 258.
[7] YANG Da-jin, ZHAO Kai, FANG Cong-rong, et al(杨大进,赵 凯,方从容,等). Chinese Journal of Health Laboratory Technology(中国卫生检验杂志), 2008, 18(7): 1460.
[8] WANG Fu-cheng, ZHAO Guang-hui, ZHOU Juan(王成福,赵光辉,周 娟). Chinese Journal of Food Additives(中国食品添加剂),2005,3: 104.
[9] LI Chuang-hui, LI Shu-juan, AN Juan(李传慧,李淑娟,安 娟). Guide of China Medicine(中国医药指南),2008,6(19): 161.
[10] Dorney T D, Baraniu K,Mittleman D M. Journal of Optical Society of American A, 2001, 18(7): 1562.
[11] Duvillaret I, Garet F, Coutaz J L. Applied Optics, 1999, 38(2): 409.
[12] Aleen Frisch, Michael J Frisch, Gary W Trucks. Gaussian03 User’s Refrence, 2004.
[13] Upadhya P C, Shen Y C, Davies A G, et al. Vibrational Spectroscopy, 2004, 35(1): 139.
[14] Walther M, Plochocka P, Fischer B, et al. Biopolymers,2002, 61(3): 310.
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