Using Hankel transform and nonlinear Onsager potential, we have described the methods for calculating the thermally bloomed wave amplitude at a series of steps between the far infrared laser and final range of interest calculated as we progressed. We now turn our attention to the subroutines which calculate the condensation and hence changes in the index of refraction as the blooming proceeds. We indicate for each time regime just how hydrodynamic response of the absorber is treated for the purpose of computation. Our results corresponding to nonlinear Onsager potential are relatively satisfied in comparison with the measurement.
Hankel transform solution for nonlinear Onsager potential of uniformly flowing medium heated by far infrared laser beam
1996-01-01
241609 byte
Conference paper
Electronic Resource
English
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