Title :
Self-trapping of necklace beams in self focusing Kerr media
Author :
Soljacic, Marin ; Sears, S. ; Segev, Mordechai
Author_Institution :
Princeton Univ., NJ, USA
Abstract :
Summary form only given. Solitons of the cubic nonlinear Schrodinger equation (NLSE) are probably the most studied solitons in nature. One of the reasons is the mathematical elegance and simplicity of this equation. But another more important reason is the vast number of physical systems that can be described by this equation. Single polarization envelope waves propagating in isotropic materials, when only the lowest order nonlinearity matters most often obey this equation. In optics, the cubic NLSE models temporal solitons in optical fibers, and low intensity solitons of all dimensions in any centrosymmetric media. Here, we present numerical simulations demonstrating the existence of what is to the best of our knowledge the first ever described (2+1)D self-trapped family of stable bright beams in the (2+1)D cubic NLSE.
Keywords :
Schrodinger equation; brightness; optical Kerr effect; optical fibre theory; stability; (2+1)D cubic NLSE; (2+1)D self-trapped family; centrosymmetric media; cubic NLSE models; cubic nonlinear Schrodinger equation; isotropic materials; low intensity solitons; lowest order nonlinearity; mathematical elegance; necklace beam self trapping; numerical simulations; optical fibers; physical systems; self focusing Kerr media; single polarization envelope waves; stable bright beams; temporal solitons; Diffraction; Fiber nonlinear optics; Nonlinear equations; Optical fiber polarization; Optical propagation; Optical solitons; Physics; Pulse modulation; Schrodinger equation; Space vector pulse width modulation;
Conference_Titel :
Quantum Electronics and Laser Science Conference, 1999. QELS '99. Technical Digest. Summaries of Papers Presented at the
Conference_Location :
Baltimore, MD, USA
Print_ISBN :
1-55752-576-X
DOI :
10.1109/QELS.1999.807446
