original ) (raw )Spectral diffusion induced by energy transfer in doped organic glasses: Delay-time dependence of spectral holes
Silvia Völker
1999
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Spectral Diffusion in Organic Glasses: Time Dependence of Spectral Holes
Silvia Völker
The Journal of Physical Chemistry, 1996
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Spectral diffusion in organic glasses. Temperature dependence of permanent and transient holes
Silvia Völker
Chemical Physics Letters, 1993
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Spectral diffusion in glasses under high pressure: A study by time-resolved hole-burning
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The Journal of Chemical Physics, 1999
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Spectral hole burning in glasses and polymer films: the Stark effect
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The Journal of Physical Chemistry, 1986
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Time and temperature dependence of optical linewidths in glasses at low temperature: Spectral diffusion
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The Journal of Chemical Physics, 1996
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Anomalous hole spectra in glasses: A case for 1D dynamics?
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Journal of Luminescence, 1998
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The effect of high pressure on the dynamics of doped organic glasses: A study by spectral hole-burning
Silvia Völker
Chemical Physics, 1997
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Optical dephasing in organic glasses between 0.3 and 20 K. A hole-burning study of Resorufin and free-base porphin
Silvia Völker
1988
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Pressure Effects on Relaxation in a Polymer Glass: A Persistent Spectral Hole Burning Study
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Optics and Spectroscopy, 2005
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Persistent Infrared Spectral Hole Burning of Impurity Vibrational Modes in Chalcogenide Glasses
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Spatial energy transfer in Nd3+-doped glasses as a function of concentration
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Relaxation Processes in Glasses at Low Temperature
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The Jerusalem Symposia on Quantum Chemistry and Biochemistry, 1986
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Nonphotochemical hole burning of organic dyes and rare earth ions in polymers and glasses: a probe of the amorphous state
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Temperature-dependent kinetics of photophysical hole burning in a tetracene-doped mthf glass
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Effects of dispersive burning kinetics on hole-burning spectrum in dye-doped polymers
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Persistent and transient spectral hole burning in Pr 3 + - and Eu 3 + -doped silicate glasses
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Optical dephasing in free-base porphin in organic glasses: a study by photochemical hole-burning
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Chemical Physics Letters, 1982
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Spectral hole burning and fluorescence in femtosecond laser induced Sm2+-doped glasses
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Spectral diffusion of molecular electronic transitions in amorphous solids: Weak and strong two-level-system phonon coupling
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The Mechanism of Spectral Shift and Inhomogeneous Broadening of an Aromatic Chromophore in a Polymer Glass
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Journal of the American Chemical Society, 1995
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Dispersive singlet exciton motion in an organic glass
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Chemical Physics, 1983
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Fast and slow relaxation processes in glasses
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Journal of Physics: Condensed Matter, 1999
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Monomer diffusion rates in photopolymer material. Part I. Low spatial frequency holographic gratings: Comment
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2012
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Are the spectral trails of single molecules consistent with the standard two-level system model of glasses at low temperatures?
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Spectral diffusion in poly(para-phenylene)-type polymers with different energetic disorder
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Monomer diffusion rates in photopolymer material: Part I Low spatial frequency holographic gratings: reply
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Anomalous impurity spectra in low-temperature glasses
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The Journal of Chemical Physics, 1996
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Measurement of optical dephasing of Eu3+ and Pr3+ doped silicate glasses by spectral holeburning
Roger Macfarlane
Optics Communications, 1983
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A relationship between the kinetics of persistent spectral hole burning and its mechanism. Experiments with porphyrin dications
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Chemical Physics Letters, 1995
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Comparison of structural transforma- tions in bulk and as-evaporated optical media under action of polychromatic or photon-energy dependent monochromatic illumination
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physica status solidi (c), 2011
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Persistent IR spectral hole-burning in chalcogenide glasses
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Journal of Luminescence, 1990
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Wavelength-dependent electron–phonon coupling in impurity glasses
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Spectral diffusion within the inhomogeneously broadened n-.pi.* singlet-triplet transition of the orientationally disordered solid of 4-bromo-4'-chlorobenzophenone
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The Journal of Physical Chemistry, 1984
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Hole burning in the absorption spectrum of chlorin in polymer films: stark effect and temperature dependence
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