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Proceedings Paper

Turbulent thermal blooming
Author(s): K. Petrowski; Diane Limsui; C. Menyuk; R. Joseph; M. Thomas; W. Torruellas
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Paper Abstract

Most system analyses of CW high-power lasers propagating in the atmosphere assume a simple additive linear relation of the impact of thermal blooming and optical turbulence in the atmosphere to the propagated laser beam spreading. In other words, both effects are treated as if they would follow Gaussian statistics in an RMS sense. While the statistics of optical propagation in a turbulent atmosphere can be modeled as Gaussian to first order, thermal blooming is a deterministic nonlinear optical phenomenon. To the best of our knowledge, there is no reason for adding linearly the beam spreading due to these two optical effects. In fact, assuming no interplay in the presence of a strong nonlinear optical interaction is counter-intuitive. As a result, we have performed extensive numerical Monte-Carlo optical wave-propagation simulations, >50,000 realizations, in the presence of thermal-blooming and atmospheric turbulence to varying degrees. During the propagation, the amplitude and the phase of a high power laser field are coupled by the interplay of diffraction, refractive turbulence and thermal blooming. In some cases, we have observed in our numerical experiments a strong coupling between turbulence and nonlinear thermal blooming.

Paper Details

Date Published: 24 April 2008
PDF: 9 pages
Proc. SPIE 6951, Atmospheric Propagation V, 695104 (24 April 2008); doi: 10.1117/12.777577
Show Author Affiliations
K. Petrowski, Johns Hopkins Univ. (United States)
Diane Limsui, Johns Hopkins Univ. (United States)
C. Menyuk, Johns Hopkins Univ. (United States)
R. Joseph, Johns Hopkins Univ. (United States)
M. Thomas, Johns Hopkins Univ. (United States)
W. Torruellas, Johns Hopkins Univ. (United States)


Published in SPIE Proceedings Vol. 6951:
Atmospheric Propagation V
G. Charmaine Gilbreath; Linda M. Wasiczko, Editor(s)

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