Reflection of Localized Beams From a Nonlinear Absorbing Interface

Authors

James A. Powell, Utah State UniversityFollow
E. M. Wright
J. V. Moloney

Document Type

Article

Journal/Book Title/Conference

SIAM Journal of Applied Mathematics

Volume

54

Publication Date

1994

First Page

774

Last Page

788

Abstract

Beam propagation and reflection are studied at the interface between a Kerr medium and a saturable absorbing nonlinear medium. For spatial solitons propagating nearly tangent to the interface, slowly varying envelope theory describes beam behavior. Phenomena are studied using numerical beam propagation and dynamical systems arguments. Projecting the dynamics onto the soliton modes of the nonabsorbing medium, an effective-particle theory is developed for the reflected beam. The results of the effective-particle theory and the numerical analysis are compared, and a heuristic criterion for predicting reflection and absorption of beams is derived.

Recommended Citation

J. Powell, E.M. Wright, J.V. Moloney. “Reflection of localized beams from a nonlinear absorbing interface,” SIAM J. Appl. Math, Vol. 54, 774–788, June 1994.