Bright solitons from the nonpolynomial Schrödinger equation with inhomogeneous defocusing nonlinearities

Abstract: Extending the recent work on models with spatially nonuniform nonlinearities, we study bright solitons generated by the nonpolynomial self-defocusing (SDF) nonlinearity in the framework of the one-dimensional (1D) Muñoz-Mateo -Delgado (MM-D) equation (the 1D reduction of the Gross-Pitaevskii equation with the SDF nonlinearity), with the local strength of the nonlinearity growing at |x| → ∞ faster than |x|. We produce numerical solutions and analytical ones, obtained by means of the Thomas-Fermi approximation (… Show more

“…As such, the study of soliton phenomena in truly periodic nonlinear lattice (the nonlinearity embedded into a linear uniform medium) is particularly intriguing, since it departs from the case in conventional linear lattices mentioned above with modulated refractive index. The stabilization of solitons and vortical ones in nonlinear lattices [34][35][36][37][38][39][40][41][42][43], combined linear and nonlinear lattices [44][45][46][47] is increasingly being studied in past years, and recently the interest is also on the scenarios with inhomogeneous modulations of nonlinearity [48][49][50][51][52][53][54][55][56]. In particular, spatially inhomogeneous nonlinear media with a defocusing nonlinearity, whose local strength grows fast enough from the pivot to the periphery, can uphold a vast variety of localized states, both the fundamental and higher-order solitons, which are in the forms of solitary vortices (with arbitrarily vortex charges) [48], vortex rings [48], soliton gyroscopes [49] and skyrmions [50], hopfions, complex hybrid modes, localized dark solitons and vortices [56].…”

Asymmetric localized states in periodic potentials with a domain-wall-like Kerr nonlinearity

“…As such, the study of soliton phenomena in truly periodic nonlinear lattice (the nonlinearity embedded into a linear uniform medium) is particularly intriguing, since it departs from the case in conventional linear lattices mentioned above with modulated refractive index. The stabilization of solitons and vortical ones in nonlinear lattices [34][35][36][37][38][39][40][41][42][43], combined linear and nonlinear lattices [44][45][46][47] is increasingly being studied in past years, and recently the interest is also on the scenarios with inhomogeneous modulations of nonlinearity [48][49][50][51][52][53][54][55][56]. In particular, spatially inhomogeneous nonlinear media with a defocusing nonlinearity, whose local strength grows fast enough from the pivot to the periphery, can uphold a vast variety of localized states, both the fundamental and higher-order solitons, which are in the forms of solitary vortices (with arbitrarily vortex charges) [48], vortex rings [48], soliton gyroscopes [49] and skyrmions [50], hopfions, complex hybrid modes, localized dark solitons and vortices [56].…”

Asymmetric localized states in periodic potentials with a domain-wall-like Kerr nonlinearity

“…The media with uniform SDF cubic nonlinearity in the presence of anti-Gaussian-type losses allow stable dissipative solitons [16]. Bright solitons have also been found in SDF quintic [17] and nonpolynomial [18,19] nonlinearities. Moreover, stable bright solitons can occur in a situation where the homogeneous SDF nonlinearity is modulated by a singular or localized SF nonlinearity with algebraic profiles [20].…”

“…Subsequently, several other types of the SDF cubic nonlinearities have been shown to support stable bright solitons [9][10][11][12][13][14]. In addition, this interesting finding has been extended to diverse settings [15][16][17][18][19]. For example, it was shown that bimodal systems with an anti-Gaussian-type SDF cubic nonlinearity can support stable bright vector solitons [15].…”

Exact solutions for bright and dark solitons in spatially inhomogeneous nonlinearity

“…The formation of stable bright solitons requires diverging nonlinearities. Several different types of such nonlinearities have been discussed [10][11][12][13][14][15][16][17][18][19][20][21][22]. In certain situations, exact analytical results for bright soliton solutions have been obtained.…”

“…In certain situations, exact analytical results for bright soliton solutions have been obtained. In most of these previous works, spatially inhomogeneous SDF nonlinearities display a single-well structure, including antiGaussian [10,12,15,17,18], exponential [10,14,[20][21][22], and algebraic [11,16,22] nonlinearities.…”

Bright solitons in nonlinear media with a self-defocusing double-well nonlinearity