1. Effect of pressure on the Fermi resonance of benzene
- Author
-
Xu Dapeng, Jiang Yong-Heng, Li Zuo-Wei, Gao Shu-Qin, Liu Tie-Cheng, Zhou Mi, and Zhang Peng
- Subjects
Phase transition ,Condensed matter physics ,Relative intensity ,General Physics and Astronomy ,Spectral bands ,chemistry.chemical_compound ,symbols.namesake ,chemistry ,symbols ,Fermi resonance ,Atomic physics ,Benzene ,Raman spectroscopy ,Coupling coefficient of resonators ,Fermi Gamma-ray Space Telescope - Abstract
Raman spectra of benzene have been obtained at pressure of 13 GPa. The results shows that with the increase of pressure,all the Raman bands blue shift,accompanied with the splitting and change of relative intensity of some spectral bands. For the vibrational Fermi resonance bands ν 1 + ν 6 — ν 8 ,according to the Betran theory,the unperturbed peak separation Δ 0 increases with pressure,which is due to the ratio of frequency-pressure of the combined ν 1 + ν 6 bands is larger than that of fundamental ν 8 . As a consequence,the coupling coefficient ω and the intensity ratio R f/a decrease. The Fermi resonance phenomenon disappears when the pressure is up to 11 Gpa,which can be explaned by high-pressure phase transition method. This report enriches the studies of environmental effect on the Fermi resonance,and provides positive reference value for the spectral certification and assignment.
- Published
- 2010