Stephen Ducharme, W.P. Risk, et al.
Applied Physics Letters
Low-temperature infrared-saturation and hole-burning measurements have been performed on an internal vibrational mode of a spherical-top molecule embedded in a variety of alkali halide crystals. The vibrational relaxation times T1 and T2 satisfy the relation T2≅2T1 but T1 (≤ 38 nsec) is orders of magnitude smaller than expected for multiphonon decay. A study of the alkali halide dependence of these relaxation times suggests that a specific combination of internal, local, and band modes is involved in the decay process. © 1981 The American Physical Society.
Stephen Ducharme, W.P. Risk, et al.
Applied Physics Letters
W.E. Moerner, A.R. Chraplyvy, et al.
Physical Review B
T.P. Carter, Ch. Bräuchle, et al.
Journal of Physical Chemistry
S.M. Silence, F. Hache, et al.
SPIE OE/LASE 1993