Accurate Measurements of Brillouin Shift in Water by the Filters with Resonating Absorption of Iodine Molecules

[in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

[1] Fabelinskii I L. Molecular Scattering of Light. New York：Plenum Press, 1968

[2] Cummins H Z, Gammon R W. Rayleigh and Brillouin scattering in liquids: the Landau-Placzek ratio. J. Chem. Phys., 1966, 44(7): 2787～2796

[3] Moutain R D. J. Research of National Bureou of Standards-A Physics and Chemistry, 1966, 70A: 207

[6] Leonard D A, Sweeney H E. Remote sensing of ocean physical properties: a comparison of Raman and Brillouin techniques. Proc. SPIE, 1988, 925: 407～414

[7] Hirschberg J G, Byrne J D, Wouters A W et al.. Speed of sound and temperature in the ocean by Brillouin scattering. Appl. Opt., 1984, 23(15): 2624～2628

[8] Hickman G D, Harding J M, Garnes M C et al.. Aircraft laser sensing of sound velocity in water: Brillouin scattering. Remote Sens. Eviron., 1991, 36: 165～178

[9] Fry E S, Emery Y, Quan X et al.. Accuracy limitations on Brillouin lidar measurements of temperature and sound speeding the ocean. Appl. Opt., 1997, 36(27): 6887～6894

[10] Liu Dahe, Xu Jianfeng, Li Rongsheng et al.. Measurements of sound speed in the water by Brillouin scattering using pulsed Nd∶YAG laser. Opt. Commun., 2002, 203:(Issue 4～6): 335～340

[11] Guagliado J L, Dufilho H L. Range resolved Brillouin scattering using a pulsed laser. Rev. Sci. Instrum., 1980, 51(1): 79～81

[12] Fry E S, Katz J, Liu Dahe et al.. Temperature dependence of the Brillouin linewidth in water. J. Modern Optics, 2002, 49(3/4): 411～418

[13] Gelbwachs J A. Atomic resonance filters. IEEE J. Quant. Electron., 1988, 24(7): 1266～1277

[14] Korb C L, Gentry B M, Weng C Y. Edge technique: theory and application to the lidar measurement of atmospheric wind. Appl. Opt., 1992, 31(21): 4202～4213

[15] Korb C L, Gentry B M, Li S X. Spaceborne lidar wind measurement with the edge technique. Proc. SPIE, 1994, 2310: 206～213

[16] Piironen P, Eloranta E W. Demonstration of a high-spectral-resolution lidar based on a iodine absorption filter. Opt. Lett., 1994, 19(3): 234～236

[17] Forkey J N, Lempert W R, Miles R B. Corrected and calibrated I2 absorption model at frequency-doubled Nd∶YAG laser wavelengths. Appl. Opt., 1997, 36(27): 6729～6738

[18] Goodman J W. Statistical Optics. New York: John Wiley & Sons, 1985. 470～520

CLP Journals