Acta Optica Sinica, Volume. 18, Issue 2, 160(1998)
Persistent Polatized Spectral Hole-Burning with High Signal-to-Background Ratio
[1] [1] B. M. Kharlamov, R. I. Personov, L. A. Bykovskaya. Stable “Gap” in absorption spectra of solid solution of organic molecules by laser irradiation. Opt. Commun., 1974, 12(2): 191~193
[2] [2] W. E. Moerner, A. R. Chraplyvy, A. J. Sievers et al.. Persistent nonphotochemical spectral hole dynamics for an infrared vibrational mode in alkali halide crystals. Phys. Rev., 1983, 28(12): 7244~7259
[3] [3] R. I. Personov, E. I. Al′Shits, L. A. Bykovskaya. The effect of fine structure apperance in laser-excited fluorescence spectra of organic compounds in solid solutions. Opt. Commun., 1972, 6(2): 169~173
[4] [4] R. Ao, S. Jahn, L. Kummerl, R. Weiner et al.. Spatial resoltuion and data addressing of frequency domain optical storage materials in the ear IR regime. Jpn. J. Appl. Phys., 1992, 31(2B): 693~698
[5] [5] R. M. Macfarlane, J.-C. Vial. Photongated spectal hole burning in LiGa5O8:Co2+. Phys. Rev. (B), 1986, 34(1): 1~5
[6] [6] Bernhard Dick. High-contrast polarization spectroscopy of photochemically holes in amorphous solids: Potential for fast optical storage. Chem. Phys. Lett., 1988, 143(2): 186~192
[7] [7] Lu Xiao, Zhao You-yuan, Chen Lingbing et al.. Anisotropic spectral holes in organic PHB materials. Acta Physica Sinica, 1994, 3(2): 131~140
Get Citation
Copy Citation Text
[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Persistent Polatized Spectral Hole-Burning with High Signal-to-Background Ratio[J]. Acta Optica Sinica, 1998, 18(2): 160