Spontaneous symmetry breaking and ghost states supported by the
fractional nonlinear Schr\"odinger equation with focusing saturable
nonlinearity and PT-symmetric potential
- URL: http://arxiv.org/abs/2210.00277v1
- Date: Sat, 1 Oct 2022 13:18:22 GMT
- Title: Spontaneous symmetry breaking and ghost states supported by the
fractional nonlinear Schr\"odinger equation with focusing saturable
nonlinearity and PT-symmetric potential
- Authors: Ming Zhong, Li Wang, Pengfei Li, and Zhenya Yan
- Abstract summary: We report a novel spontaneous symmetry breaking phenomenon and ghost states existed in the framework of the fractional nonlinear Schr"odinger (FNLS) equation.
The continuous asymmetric soliton branch bifurcates from the fundamental symmetric one as the power exceeds some critical value.
We explore the elastic/semi-elastic collision phenomena between symmetric and asymmetric solitons.
- Score: 13.844860643212105
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We report a novel spontaneous symmetry breaking phenomenon and ghost states
existed in the framework of the fractional nonlinear Schr\"odinger (FNLS)
equation with focusing saturable nonlinearity and PT-symmetric potential. The
continuous asymmetric soliton branch bifurcates from the fundamental symmetric
one as the power exceeds some critical value. Intriguingly, the symmetry of
fundamental solitons is broken into two branches of asymmetry solitons (alias
ghost states) with complex conjugate propagation constants, which is solely in
fractional media. Besides, the dipole (antisymmetry) and tripole solitons are
also studied numerically. Moreover, we analyze the influences of fractional
L\'evy index and saturable nonlinear parameters on the symmetry breaking of
solitons in detail. And the stability of fundamental soliton, asymmetric,
dipole and tripole solitons are explored via the linear stability analysis and
direct propagations. Moreover, we explore the elastic/semi-elastic collision
phenomena between symmetric and asymmetric solitons. Meanwhile, we find the
stable excitations from the fractional diffraction with saturation nonlinearity
to integer-order diffraction with Kerr nonlinearity via the adiabatic
excitations of parameters. These results will provide some theoretical basis
for the study of spontaneous symmetry breaking phenomena and related physical
experiments in the fractional media with PT-symmetric potentials.
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