R.D. Murphy, R.O. Watts
Journal of Low Temperature Physics
The behavior of a pulsed whose frequency sweeps through the resonance of a linear system, although first studied in spin resonance, is widely applicable to many wave phenomena. A frequency-swept optical pulse transmitted through a resonant medium develops intensity oscillations, which are the result of heterodyning the input pulse with the field radiated by the resonant system. This self-induced heterodyne signal allows the determination of the relative phase between the input pulse and the single frequency field radiated by the resonant system. A simple approximate model which very accurately describes the time evolution of the output pulse is given a physical and mathematical basis. Results for the optically thin case are extended to include the effects of propagation, revealing phenomena which have no spin-resonance analogy. Copyright © 1986 by The Institute of Electrical and Electronics Engineers, Inc.
R.D. Murphy, R.O. Watts
Journal of Low Temperature Physics
A. Nagarajan, S. Mukherjee, et al.
Journal of Applied Mechanics, Transactions ASME
R. Ghez, M.B. Small
JES
Sang-Min Park, Mark P. Stoykovich, et al.
Advanced Materials