Publications

1983 - 1990

1.   “Burning of holes in inhomogeneously broadened spectra of polymethyn and oxazine dyes in low-temperature matrices,” R. Kaarli, A. Rebane, and P. Saari, Proc. of the Acad. of Sci. of Estonian SSR Phys.Math. 32 (4), 347-350 (1983).

2.    “Burning out a complex-shaped hole by a coherent series of picosecond pulses,” A. K. Rebane, R. K. Kaarli, and, P. M. Saari, Opt. Spectrosc. (USSR) 55 (3), 238-239 (1983). [Eng. trans.: Optika i Spertrosk.. 55 (3), 405-407 (1983)].PDF

3.    “Dynamic picosecond holography produced by means of photochemical hole burning,” A. K. Rebane, R. K. Kaarli, and P. M. Saari, JETP Lett. 38, 383-386 (1983). [Eng. trans.: Pis’ma Zh. Eks. Teor. Fiz. 38 (7), 320-323 (1983)].

4.    “Photochemical time-domain holography of weak picosecond pulses,” A. Rebane, R. Kaarli, P. Saari, A. Anijalg, and K. Timpmann, Optics Commun. 47 (3), 173-176 (1983). PDF

5.       “Picosecond pulse-shaping by photochemical time-domain holography,” A. Rebane, R. Kaarli, Chem. Phys. Lett. 101 (3), 317-319 (1983). PDF

6.       “Time-space  holography of pulsed light fields in spectrally selective photoactive medium,” (in Russian), P. Saari, A. Rebane, Proc. of the Acad. of Sci. of Estonian SSR Phys.Math. 33 (3), 322-332 (1984). PDF

7.       “Multi-frequency photochemical hole-burning in impurity spectra studied by time-domain detection,” J. Kikas, R. Kaarli, and A. Rebane, Proc. of the Acad. of Sci. of Estonian SSR Phys. Math. 33 (1), 124-127 (1984).

8.       “Limiting number of photochemical holes in an inhomogeneously-broadened spectrum,” J. V. Kikas, R. K. Kaarli, and A. K. Rebane, Opt. Spectrosc. (USSR) 56 (3), 238-239 (1984) [English transl.: Optika i Spektrosk. 56, 387-389 (1984)]. PDF

9.       “Picosecond time-space holography on the basis of photochemical hole-burning,” A. K. Rebane, and R. K. Kaarli, Proc. of Acad. Sci. Sov. Ser. Phys. 48 (3), 545-549 (1984).

10.   “Burning and probing of photochemical holes with picosecond pulses,” A. K. Rebane, R. K. Kaarli, and P. M. Saari, J. Mol. Struc. 114, 343 - 345 (1984).

11.   “Holography of spatial-temporal events,” P. M. Saari, R. K. Kaarli, and A. K. Rebane, Kvant. Elektron. (Kiev) 12, 672 - 682 (1985) [English transl.: Sov. J. Quantum Electron. 15 (4), 443-449 (1995)]. PDF

12.   “Recording of Picosecond Wavefronts by Photochemically Accumulated Stimulated Photon Echo.” (in Russian), A. Rebane, R. Kaarli, P. Saari, Proc. of the Acad. of Sci. of the Estonian SSR Phys. Math. 34, 328 - 330 (1985). PDF

13.   “Image recording and wave-front conjugation of distorted picosecond signals by means of space-time holography based on photochemical hole burning,” (in Russian) Proc. of the Acad. of Sci. of the Estonian SSR Phys. Math. 34, 444 - 446 (1985). PDF

14.   “Recording of Space-Time Holograms in Spectrally Highly Selective Media,” P. M. Saari, A. K. Rebane, and R. K. Kaarli, In: Holographic Recording in Volume Media, Ju. N. Denisjuk, ed., Leningrad, 1986, p.30 - 43.

15.   “Space-Time Holography of Picosecond Pulsed Fields in Highly-Selective Photochromic Media,” R. Kaarli, J. Kikas, A. Rebane, P. Saari, Laser Chem. 6, 165 -180 (1986).

16.   “Picosecond Time- and Space-Domain Holography by Photochemical Hole Burning,” P. Saari, R. Kaarli, and A. Rebane, J. Opt. Soc. Am. B 3 (4), 527 - 533 (1986). PDF

17.   “Reproductiuon of pulsed light signals by their fragments using time-and-space domain holography,“ A. Rebane, R. Kaarli, Proc. of the Acad. of Sci. of the Estonian SSR Phys. Math. 36, 208 - 212 (1987). (in Russian).

18.   “Temporal compression and recovery of ultrashort frequency-modulated light signals by persistent spectral hole-burning holograms,” A. Rebane, Proc. of the Acad. of Sci. of the Estonian SSR Phys. Math. 37, 340 - 345 (1987). (in Russian).

19.   “Holographic Interferometry of Ultrafast Optical Transients by Persistent Spectral Hole Burning,” A. Rebane, J. Aaviksoo, Optics Lett. 13, 993 - 996 (1988). PDF

20.   “Associative Recall of Picosecond Time- and Space Domain Holograms,” A. Rebane, Optics Commun. 67, 175 -180 (1988). PDF

21.   “Compression and Recovery of Temporal Profiles of Picosecond Light Signals by Persistent Spectral Hole-Burning Holograms,” A. Rebane, Optics Commun. 67 (4), 301 - 304 (1988).PDF

22.   “Associative Recall of Time- and Space Domain Holograms in Spectrally Selective Photoactive Media,” A. Rebane, Proc. of the Acad. of Sci. of Estonian SSR, Phys.Math. 37 No.1, 89 - 92 (1988). (in Russian).PDF

23.   “Double Exposure Holographic Interferometry of Ultrashort Optical Transients via Photochemical Hole Burning,” A. Rebane, and O. Ollikainen, Proc. of the Acad. of Sci. of Estonian SSR Phys.Math. 38 (2), 202 - 207 (1989). PDF

24.   “Storage and Time Reversal of Femtosecond Light Signals via Persistent Spectral Hole Burning Holography,” A. Rebane, J. Aaviksoo, and J. Kuhl, Appl. Phys. Lett. 54 (2), 93 - 95 (1989).PDF

25.   “Dephasing Processes as Studied by Two Pulse Photon Echoes and Photochemically Accumulated Echoes: The Question of Spectral Diffusion in a Doped Organic Polymer Matrix,” A. Rebane, and D. Haarer, Optics Commun. 70 (6), 478-482 (1989). PDF

26.   “Pico- and Femtosecond Photon Echoes in Doped Low-Temperature Organic Polymers and Applications in Time-Space Optical Data Processing,” R. Kaarli, A. Rebane, K. Rebane, and P. Saari, J. Luminescence 45, 401-405 (1990). PDF

27.   “Picosecond Time-Space Holographic Interferograms Stored by Persistent Spectral Hole Burning,” A. Rebane, and O. Ollikainen, Optics Commun.  78 (5/6), 327-331 (1990). PDF

1991 - 2000

28.   “Error-Corrective Optical Recall of Digital Images by Photoburning of Persistent Spectral Holes,”A. Rebane, and O. Ollikainen, Optics Commun. 83 (3/4), p. 246 - 250 (1991). PDF

29.   “Time-Resolved Holography,” A. Rebane, and Jack Feinberg, Nature 351, May 30, p. 378 - 380 (1991). PDF

30.   “Holography in Frequency Selective Media: Hologram Phase and Causality,” A. Rebane, S. Bernet, A. Renn, and U. P. Wild, Optics Communications 86, 7 -13 (1991). PDF

31.   “Optical Realization of Hopfield’s Model of Neural Nets Based Upon Photobleaching of Spectral Holes,” O. Ollikainen, and A. Rebane, Proc. of the Estonian Academy of Sciences, Phys.Math. 40, (4) 315-324 (1991).

32.   “Dye-Doped Polymer Films: From Supramolecular Photochemistry to the Molecular Computer,” U.P. Wild, A. Rebane, and A. Renn, Advanced Materials, 3 (9) 453-456 (1991). PDF

33.   “Photochemically Accumulated Photon Echoes and Stark Effect,” H. Gygax, E. Görlach, A. Rebane, U.P. Wild, J. of Luminescence 53, 59 - 61 (1992). PDF

34.   “Spectral Hole Burning and Holography V. Asymmetric Diffraction from Thin Holograms,”
S. Bernet, B. Kohler, A. Rebane, A. Renn, and U.P. Wild, JOSA B 9 (6), 987- 991 (1992). PDF

35.   “Holography in Frequency Selective Media II: Controlling the Diffraction Efficiency,” S. Bernet, B. Kohler, A. Rebane, A. Renn, and U.P. Wild, J. of Luminescence 53, 215 - 218 (1992). PDF

36.   “Optical Neural Networks Modeled by Persistent Spectral Hole-Burning,” O. Ollikainen, Karl K. Rebane, and A. Rebane, Opt. Quant. Electron. 25, 569-585 (1993). PDF

37.   “Stark Effect in Dye-Doped Polymers Studied by Photochemically Accumulated Photon Echoes,” H. Gygax, A. Rebane, and U.P. Wild, JOSA B 10, No.7, 1149 - 1158 (1993). PDF

38.   “Subpicosecond Pulse Shaping via Spectral Hole-Burning,” H. Schwoerer, D. Erni, A. Rebane, and U.P. Wild, Optics Commun. 107, 123 - 128 (1994).

39.   “Non-Collinear Parametric Generation in LiIO3 and b-barium borate by Frequency-Doubled Femtosecond Ti:Sapphire Laser Pulses,” V. Krylov, A. Rebane, A. Kalintsev, D. Erni, and U.P. Wild, Opt. Lett. 20, 151-154 (1995). PDF

40.   “Second Harmonic Generation of Amplified femtosecond Ti:sapphire Laser Pulses,” Vitaly Krylov, Alexander Rebane, Alexander Kalintsev, Heinrich Schwoerer, and Urs P. Wild, Opt. Lett. 20, 1198-200 (1995). PDF

41.   “Spectrally controlled interference of picosecond time-and-space-domain holograms,” D. Erni, A. Rebane, and U.P. Wild, Opt. Lett. 20, 1065-1068 (1995). PDF

42.   “Femtosecond Time-Space Holograms: Diffraction on the Edge of Time,” A. Rebane, O. Ollikainen, D. Erni, H. Schwoerer, and U.P. Wild, J. of Luminescence 64, 283-290 (1995). PDF

43.   “Holography in Frequency Selective Media III: Spectral Synthesis of Arbitrary Time Domain Pulse Shapes,” H. Schwoerer, D. Erni, and A. Rebane, J. Opt. Soc. Am. B 12, 1083-1093 (1995). PDF

44.   “Shaping of phase and amplitude of ultrashort laser pulses with organic spectral hole burning materials,” H. Schwoerer, D. Erni, A. Rebane, and U.P. Wild, Adv. Mater. 7, 457 - 460 (1995).

45.   “Waveguide Narrow-Band Optical Filter by Spectral Hole-Burning,” M. Tschanz, A. Rebane, and U.P. Wild, Opt. Engineering 34, 1936-1940 (1995). PDF

46.   “The sensitivity of silver halide materials for holography with radiation pulse lengths of 102-10-13 s”, V.N. Mikhailov, V.N. Krylov, D.I. Stasel’ko, A. Rebane, U.P. Wild, Optics and Spectrosc. 79, 4 (1995), 613-614 [Optika i Spektroskopiya 79, 4 (1995) 665-666].

47.   "Simultaneous Spatial and Frequency Transformations of Laser Radiation Diffracted from a c(2)-Hologram in the Bulk of a Glass," V. Kopp, A. Rebane, U. Wild, Optics and Spectroscopy,1997 v 83 n 6, p.926.

48.   “Stimulated Raman scattering in Hydrogen by frequency-doubled amplified femtosecond Ti:Sapphire laser pulses,” V. Krylov, A. Rebane, U.P. Wild, D. Erni. O. Ollikainen, V. Bespalov, and D. Staselko, Opt. Lett. 21 (1996) 381-383. PDF

49.   “Third-harmonic generation in a plasma formed by optical breakdown of air in the field of femtosecond laser pulses with a high repetition rate,” A.K. Rebane, V.N. Krylov, N.I. Koroteev and A.M. Zheltikov, Quantum Electronics 26 (1996) 283-284.

50.   “Transmission modulation of a single-mode planar waveguide by spectral hole-burning”, M. Tschanz, A. Rebane, D. Reiss and U.P. Wild, Mol. Cryst. Liq. Cryst., 283 (1996) 43-50. PDF

51.   "Nondestructive readout of time-and-space-domain holograms recorded by two-color photon-gated spectral hole burning," A. Rebane, D. Reiss, I. Renge, and U.P. Wild, Chem. Phys. Lett. 262, 155 (1996). PDF

52.   "Wave-matching of femtosecond and picosecond photon echoes in dye-doped polymer films," V. Zuikov, W. Ferri, O. Ollikainen, A. Rebane, and U.P. Wild, Laser Physics 6, 729 (1996).

53.   “Angular regularities of the photon echo in doped crystals,” A.A. Kalachev, V.V. Samartsev, V.A. Zuikov, A.K. Rebane, and U.P. Wild Laser Physics, 6, No.5, 942-945 (1996).

54.   “Structure of spectra of stimulated Raman scattering in high-pressure hydrogen,” V.G. Bespalov, D.I. Stasel’ko, V.N. Krylov, A. Rebane, U. Wild, D. Erni and O. Ollikainen, Optics and Spectroscopy, 82, No.3 (1997) 384-389 [Optika i Spektroskopija, 82, No.3, 421-426 (1997)];PDF

55.   "Simultaneous spatial and frequency transformations of laser radiation diffracted from x(2) hologram in bulk of a glass," V.I. Kopp, A. Rebane, D. Reiss, V. Krylov, U. Wild, Optics and Spectroscopy, 83, No.6, 926-929 (1997). PDF

56.   “Total fluorescence spectra of free base chlorin and its photo-product in poly-vinylbutyral at liquid helium temperatures,” Wen-Ying Huang, Alexander Rebane, Urs P. Wild, Lawrence W. Johnson, J. of Luminescence, 71, n.3, 237-243 (1997) PDF

57.   "Ballistic-light imaging with temporal holography: using causality to see through scattering medium," Jack Feinberg and A. Rebane, Ann. New York Acad. Sci. v.820 (1997).

58.   "Femtosecond stimulated Raman scattering in gases in UV and visible spectral range," V. Krylov, O. Ollikainen, U.P. Wild, A. Rebane, V.G. Bespalov, D.I. Stasel'ko, JOSA B 15, n.12, p. (1998). PDF

59.   "Stimulated Raman scattering spectra with femtosecond pulses," V.G. Bespalov, Yu.N. Efimov, V.N. Krylov, D.I. Stasel'ko, A. Rebane, O. Ollikainen, U.P. Wild, Russian Acad. Sci. Izvestija, v.62, No.2, p.245-253 (1998).

60.   "Stimulated Raman scattering spectra in compressed hydrogen with picosecond pumping," V.G. Bespalov, Yu.N. Efimov, V. Krylov, D. Stasel'ko, A. Rebane, O. Ollikainen, U. P. Wild, Bulletin of the Russian Academy of Sciences, Physics, v.62,n.2, 205-210 (1998).

61.   "Terahertz, bit-rate parallel multiplication by photon echo in low-temperature dye-doped polymer film," O. Ollikainen, C. Nilsson, A. Rebane, Optics Commun. 147 (4/6), 429 (1998).PDF

62.   "Ultrafast time-and-space-domain holography in dye-doped polymers," A. Rebane, Chimia 52, 112-117 (1998). PDF

63.   "Efficient non-colinear parametric amplification of weak femtosecond pulses in the visible and near-infrared spectral range," V. Krylov, O. Ollikainen, J. Gallus, U.P. Wild, A. Rebane, A. Kalintsev, Optics Letters 23 (2), 100-102 (1998). PDF

64.   "Nondestructive read-out of two-color photon-gated spectral hole burning holograms," D. Reiss, A. Rebane, U.P. Wild, Mol. Cryst. Liq. Cryst, v.314, 161-166 (1998). PDF

65.    "Generation of femtosecond light pulses in the UV and visible spectral regions in stimulated Raman scattering in compressed gases," V.G. Bespalov, U. Wild, V. Krylov, O. Ollikainen, A. Rebane, and D. Stasel'ko, Optics and Spectroscopy, v.85, n.2, 305-313 (1998).

66.   "Super-regenerative SRS amplification of femtosecond pulses in compressed hydrogen," V.G. Bespalov, D. Stasel’ko, Yu.N. Efimov, V. Krylov, A. Rebane, D. Erni, O. Ollikainen, U. Wild, Optics and Spectroscopy, v.85, n. 2, 338-346 (1998). PDF

67.   "Ultrafast optical processing with photon echoes," A. Rebane, Cr. Siegel, W. Ross, J. Gallus, J. of Luminescence, 83-84, 325-333 (1999). PDF

68.   "Demonstration of ultrafast logic gate by interference of coherent transients," W. Ross, M. Drobizhev, C. Sigel, A. Rebane, Laser Physics, v.6, n.5, p.1102-1108 (1999). PDF

69.   "Transient stimulated Raman scattering in gas mixtures," V. Krylov, I. Fischer, V. Bespalov, D. Statselko, A. Rebane, Optic Letters, 24, n.22, 1623 - 1625 (1999). PDF

70.   "Femtosecond non-colinear and colinear parametric generation and amplification in BBO crystal," V. Krylov, J. Gallus, U.P. Wild, A. Kalintsev, A. Rebane, Appl. Phys. B, 70, 163-168 (2000). PDF

71.   "Picosecond Fluorescence Decay and Exciton Dynamics in a New Far-Red Molecular J-Aggregate System," M. Drobizhev, C. Sigel and A. Rebane, J. of Luminescence 86, 107-116 (2000). PDF

72.   “Photo-tautomer of Br-porphyrin: a new frequency-selective material for ultrafast time-space holographic storage," M. Drobizhev, C. Sigel and A. Rebane, J. of Luminescence 86, 391-397 (2000).PDF

73.   "Interference between Femtosecond Pulses Observed via Time-Resolved Spontaneous Fluorescence," A. Rebane, M. Drobizhev and C. Sigel, Chem. Phys. Lett. 322, 287-292 (2000). PDF

74.   “Picosecond dynamics of excitations studied in three generations of new 4,4'-bis (diphenylamino) stilbene-based dendrimers," M. Drobizhev, C. Sigel, A. Rebane, E.H. Endaloussi and C.W. Spangler, Chem. Phys. Lett. v.325, 375-382 (2000). PDF

75.   “Spatial and spectral properties of non-equilibrium population gratings induced in a resonant medium by femtosecond pulses,” V.A. Zuikov, A.A. Kalashev, V.V. Samartsev, I.V. Negrashov, A. Rebane, J. Gallus, O. Ollikainen, and U.P. Wild, Laser Physics, v. 10, n.1, 368 (2000).

76.  “Single femtosecond exposure recording of image hologram by spectral hole burning in unstable tautomer of phthalocyanine derivative,” A. Rebane, M. Drobizhev, and C. Sigel, Opt. Lett. 25, 1633-1635 (2000). PDF

2001 to present

77.   “Persistent spectral hole burning by simultaneous two-photon absorption,” M. Drobizhev, A. Karotki and A. Rebane, Chem. Phys. Lett 334, 76-82 (2001). PDF

78.   “New dendrimer molecules with record large two-photon absorption cross-section,” M. Drobizhev, A. Karotki, A. Rebane, and C.W. Spangler, Optics Lett. 26, 1081-1083 (2001). PDF

79.   Efficient singlet oxygen generation upon two-photon excitation of new porphyrin with enhanced nonlinear absorption,” A. Karotki, M. Kruk, M. Drobizhev, A. Rebane, E. Nickel, C. W. Spangler, IEEE J. Selected Topics in Quantum Electronics 7 (6), 971- 975 (2001). PDF

80.   “Two-photon excited coherence gratings in inhomogeneously broadened organic solid,” A. Karotki, M. Kruk, M. Drobizhev, and A. Rebane, J. Modern Optics 49 (3/4), 379-390 (2002). PDF

81.   “Resonance enhancement of two-photon absorption in porphyrins,” M. Drobizhev, A. Karotki, M. Kruk, A. Rebane, Chem. Phys. Lett. 355, 175-182 (2002). PDF

82.   “Multi-dimensional holography by persistent spectral hole burning,” A. Renn, U. P. Wild, and A . Rebane, J. Phys. Chem. 106, 3045-3060 (2002). PDF

83.   “Frequency-domain gratings by simultaneous absorption of two photons,” A. Rebane, M. Drobizhev, A. Karotki, J. of Luminescence 98, 341-353 (2002). PDF

84.   “Drastic enhancement of two-photon absorption in porphyrins associated with symmetrical electron-accepting substitution,” M. Drobizhev, A. Karotki, M. Kruk, N. Zh. Mamardashvili, and A. Rebane, Chem. Phys. Lett. 361, 504-512 (2002). PDF

85.   “Femtosecond time-and-space-domain holography in one- and two-photon transitions,” Izvestia Acad. Nauk, Ser. Fiz. 66, 297-301 (2002).

86.   “Femtosecond photon echo spectroscopy in single laser shot,” A. Rebane, J. Gallus, and O. Ollikainen, Laser Physics 12, 1126-1134 (2002). PDF

87.   “FAST CARS: Engineering a laser spectroscopic technique for rapid identification of bacterial spores,” M.O. Scully, G.W. Kattawar, R.P. Lucht, T. Opatrny, H. Piloff, A. Rebane, A.V. Sokolov, and M.S. Zubairy, Proc. Nat. Acad. Sci. 99, 10994-11001 (2002). PDF

88.   “Enhancement of two-photon absorption in tetrapyrrolic compounds,” A. Karotki, M. Drobizhev, M. Kruk, Ch. Spangler, E. Nickel, N. Mamardashvili and A. Rebane, JOSA B 20, p.321- 332 (2003). PDF

89.   “Upconversion fluorescence in porphyrins: One-photon hot-band absorption versus two-photon absorption,” M. Drobizhev, A. Karotki, M. Kruk, A. Krivokapic, H. L. Anderson, and A. Rebane, Chem. Phys. Lett. 370, 690-699 (2003). PDF

90.   “ Strong Cooperative Enhancement of Two-Photon Absorption in Dendrimers,” M. Drobizhev, A. Karotki, Y. Dzenis, and A. Rebane, Zhiyong Suo and C.W. Spangler, J. Phys. Chem. B Letter 107 (31), 7540-7543 (2003). PDF

91.   “Two-photon absorption of tetraphenylporphin free base,” M. Kruk, A. Karotki, V. Kuzmitski, M. Drobizhev, V. Gael, and A. Rebane, J. of Luminescence 105, 45-55 (2003). PDF

92.   “Dramatic enhancement of intrinsic two-photon absorption in a conjugated porphyrin dimer,” A. Karotki, M. Drobizhev, Y. Dzenis, P. N. Taylor, H. L. Anderson, and A. Rebane, Phys. Chem. Chem. Phys, 6 (1), 7-10 (2004). PDF

93.   “Electron-Phonon Coupling in Two-Photon Spectral Gratings: Role of Molecular Symmetry,” M. Drobizhev, Yu. Dzenis, A. Karotki, A. Rebane, J. Luminescence 107, 194-202 (2004). PDF

94.   “Uncovering Coherent Domain Structure in a Series of p-conjugated Dendrimers by Simultaneous Three-Photon Absorption.” M. Drobizhev, A. Karotki, M. Kruk, Yu. Dzenis, A. Rebane, Z. Suo, and C.W. Spangler, J. Phys. Chem. B (Letter) 108 (14): 4221-4226 (2004). PDF

95.   "Understanding Strong Two-Photon Absorption in p-Conjugated Porphyrin Dimers via Double-Resonance Enhancement in a Three-Level Model," M. Drobizhev, Y. Stepanenko, Y. Dzenis, A. Karotki, A. Rebane, P. N. Taylor, and H.. Anderson, J. of American Chemical Society, 126 (47), 15352-15353 (2004). PDF

96.   "One-, Two- and Three-Photon Spectroscopy of p-Conjugated Dendrimers: Cooperative Enhancement and Coherent Domains," M. Drobizhev, A. Rebane, Z. Suo, and C.W. Spangler, J. Luminescence, 111 (4), 291-305 (2005). PDF

97.   "Femtosecond resonance enhanced CARS for background-free detection of organic molecules," A. Rebane, M. Drobizhev, M. Kruk, A. Karotki., I. Tehver, and M. Scully, J. of Modern Optics, 52 (9), 1243-1253 (2005). PDF

98.   "Extremely Strong Near-IR Two-Photon Absorption in Conjugated Porphyrin Dimers: Quantitative Description with Three Essential States Model," M. Drobizhev, Y. Stepanenko, Y. Dzenis, A. Karotki, A. Rebane,P. N. Taylor, and H. L. Anderson,  J. Phys. Chem. B, 109 (15): 7223-7236 (2005). PDF

99.   "Slow light with persistent hole burning," R. N. Shakhmuratov, A. Rebane, P. Megret, and J. Odeurs, Phys. Rev. A 71, 053811 (2005). PDF

100.  "Quantum interference in organic solid", A. Rebane, N. Christensson, M. Drobizhev, Y. Stepanenko, C.W. Spangler, Opt. Exp. 13 (16), 6033-6038 (2005). PDF

101."New fluorophores based on triphenylamine for three-photon absorption," Z. Suo, M. Drobizhev, C.W.Spangler, N.Christensson, and A.Rebane, Organic Letters, 7 (22), 4807-4810 (2005). PDF

102. "Synthesis, Crystal Structure, and Nonlinear Optical Behavior of -Unsubstituted meso-meso E-Vinylene-Linked Porphyrin Dimers," Frampton, M. J.; Akdas, H.; Cowley, A. R.; Rogers, J. E.; Slagle, J. E.; Fleitz, P. A.; Drobizhev, M.; Rebane, A.; Anderson, H. L., Org. Letters 2005; 7 (24); 5365-5368. PDF

103. "Strong Two-Photon Absorption in New Asymmetrically-Substituted Porphyrins: Interference between Charge-Transfer and Intermediate-Resonance Pathways." M. Drobizhev, F. Meng, A. Rebane, Y. Stepanenko, E. Nickel, and C. W. Spangler, J. Physical Chemistry B 110 (20), 9802-9814 (2006).

104. “Slow light in polymer film with narrow dip in the absorption spectrum,” R.N. Shakhmuratov,  A. Rebane, P. Mégret, and J. Odeurs, Bulletin of Russian Academy of Sciences: Physics 70,  478-480  (2006) (in Russian).

105. "Near-infrared two-photon absorption in phthalocyanines: Enhancement of lowest gerade-gerade transition by symmetrical electron-accepting substitution,“ M. Drobizhev, N. Makarov. Y. Stepanenko and A. Rebane, J. Phys. Chem. 124 (22), 224701 (2006).

106. "Strong Cooperative Enhancement of Two-Photon Absorption in Double-Strand Conjugated Porphyrin Ladder Arrays," M.  Drobizhev,. Y. Stepanenko, A. Rebane, C.J. Wilson, T. E.O. Screen, H.L. Anderson, J. Am. Chem. Soc., 128(38), 12432-12433 (2006).

107. “Very efficient two-photon induced photo-tautomerization in non-symmetrical phthalocyanines,”  M. Drobizhev, N. S. Makarov, A. Rebane H. Wolleb, H. Spahni, J. of Luminescence (submitted).

108. “Slow light with persistent spectral hole burning,”  A. Rebane, R. N. Shakhmuratov, P. Mégret, and J. Odeurs,  J. of Luminescence (accepted).

109. “Quantum interference between multi photon absorption pathways in organic solid,” A. Rebane, N. Christensson, M. Drobizhev, Y. Stepanenko, C.W. Spangler, J. of Luminescence (submitted).

110. “Optimizing two-photon absorption for volumetric optical data storage,”  N. S. Makarov, A. Rebane, M. Drobizhev, H. Wolleb, and H. Spahni,  JOSA B (submitted).

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