Selective excitation of molecular mode in a mixture by femtosecond resonance-enhanced coherent anti-Stokes Raman scattering spectroscopy  被引量：2

作　　者：He Ping Li Si-Ning Fan Rong-Wei Li Xiao-Hui Xia Yuan-Qin Yu Xin Chen De-Ying 贺平;李思宁;樊荣伟;李晓晖;夏元钦;于欣;陈德应(National Key Laboratory of Science and Technology on Tunable Laser,Institute of Opto-electronics,Harbin Insitute of Technology,Harbin 150080,China;College of Foundation Science,Harbin University of Commerce,Harbin 150028,China)

机构地区：[1]National Key Laboratory of Science and Technology on Tunable Laser,Institute of Opto-electronics,Harbin Insitute of Technology,Harbin 150080,China [2]College of Foundation Science,Harbin University of Commerce,Harbin 150028,China

出　　处：《Chinese Physics B》2012年第2期526-530,共5页中国物理B（英文版）

基　　金：supported by the National Natural Science Foundation of China (Grant Nos.60878018 and 61008023);the Natural Scientific Research Innovation Foundation in Harbin Institute of Technology,China (Grant No.HIT.NSRIF.2009009);the Science and Technology Innovation Foundation,Harbin,China (Grant No.RC2007QN017030)

摘　　要：Femtosecond time-resolved coherent anti-Stokes Raman scattering （CARS） spectroscopy is used to investigate gaseous molecular dynamics. Due to the spectrally broad laser pulses, usually poorly resolved spectra result from this broad spectroscopy. However, it can be demonstrated that by the electronic resonance enhancement optimization control a selective excitation of specific vibrational mode is possible. Using an electronically resonance-enhanced effect, iodine molecule specific CARS spectroscopy can be obtained from a mixture of iodine-air at room temperature and a pressure of 1 atm （corresponding to a saturation iodine vapour as low as about 35 Pa）. The dynamics on either the electronically excited state or the ground state of iodine molecules obtained is consistent with previous studies （vacuum, heated and pure iodine） in the femtoseeond time resolved CARS spectroscopy, showing that an effective method of suppressing the non-resonant CARS background and other interferences is demonstrated.Femtosecond time-resolved coherent anti-Stokes Raman scattering （CARS） spectroscopy is used to investigate gaseous molecular dynamics. Due to the spectrally broad laser pulses, usually poorly resolved spectra result from this broad spectroscopy. However, it can be demonstrated that by the electronic resonance enhancement optimization control a selective excitation of specific vibrational mode is possible. Using an electronically resonance-enhanced effect, iodine molecule specific CARS spectroscopy can be obtained from a mixture of iodine-air at room temperature and a pressure of 1 atm （corresponding to a saturation iodine vapour as low as about 35 Pa）. The dynamics on either the electronically excited state or the ground state of iodine molecules obtained is consistent with previous studies （vacuum, heated and pure iodine） in the femtoseeond time resolved CARS spectroscopy, showing that an effective method of suppressing the non-resonant CARS background and other interferences is demonstrated.

关 键 词：ultrafast spectroscopy coherent anti-Stokes Raman scattering vibrational analysis resonance enhancement 

分 类 号：O561.3[理学—原子与分子物理]