Dynamic Instability of Self-Induced Bidirectional Waveguides in Photorefractive Media. Jander, P, Schröder, J, Denz, C, Petrovic, M, & Belic, M R Optics Letters, 30(7):750–752, 2005.
abstract   bibtex   
We report on the experimental observation of a dynamic instability in the interaction of counterpropagating self-trapped beams in a photorefractive strontium barium niobate crystal. While the interaction of copropagating spatial optical solitons exhibits only transient dynamics, resulting in a final steady state, the counterpropagating geometry supports a dynamic instability mediated by intrinsic feedback. Experimental observations are compared with and found to be in qualitative agreement with numerical simulations. (14 References).
@article{jander2005,
  title = {Dynamic Instability of Self-Induced Bidirectional Waveguides in Photorefractive Media.},
  author = {Jander, P and Schr{\"o}der, J and Denz, C and Petrovic, M and Belic, M R},
  year = {2005},
  volume = {30},
  pages = {750--752},
  issn = {0146-9592.},
  abstract = {We report on the experimental observation of a dynamic instability in the interaction of counterpropagating self-trapped beams in a photorefractive strontium barium niobate crystal. While the interaction of copropagating spatial optical solitons exhibits only transient dynamics, resulting in a final steady state, the counterpropagating geometry supports a dynamic instability mediated by intrinsic feedback. Experimental observations are compared with and found to be in qualitative agreement with numerical simulations. (14 References).},
  file = {/home/jschrod/MyPcloud/ZoteroPapers/jander_et_al_2005_dynamic_instability_of_self-induced_bidirectional_waveguides_in_photorefractive.pdf},
  journal = {Optics Letters},
  keywords = {counter-propagating,MyAll,MyJournals,MyPaper,numerics,photorefractive,soliton},
  number = {7}
}

Downloads: 0