Abstract
Over the last decade, time-resolved optical proves with subpicosecond temporal resolution have been used to directly measure fast relaxation processes in a wide variety of material systems. However, these techniques are impractical for measurements of relaxations occurring over several orders of magnitude in time. Relaxation processes that occur over many orders of magnitude in time are found in a wide variety of physical systems, including the excited-state dynamics of simple molecular systems and conclensed matter systems, such as amorphous semiconductors and conductive polymers.
© 1995 Optical Society of America
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