2011
DOI: 10.1103/physreva.83.033829
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Solution for (1+1)-dimensional surface solitons in thermal nonlinear media

Abstract: Analytical solutions for (1+1)-dimensional surface fundamental solitons in thermal nonlinear media are obtained. The stationary position and the critical power of surface solitons are obtained using these analytical solutions. The analytical solutions are verified by numerical simulations. The solutions for surface breathers and their breathing period, along with solutions for surface dipole and tripole solitons, are also given.

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Cited by 10 publications
(6 citation statements)
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“…2(a) and 2(c), we find that a SDSW in nonlocal self-defocusing media can be regarded as half of a bulk DSW with an antisymmetric amplitude distribution. The relationship has also been found between surface solitons and bulk solitons in nonlocal nonlinear media [33,38].…”
Section: Numerical Simulationsmentioning
confidence: 87%
“…2(a) and 2(c), we find that a SDSW in nonlocal self-defocusing media can be regarded as half of a bulk DSW with an antisymmetric amplitude distribution. The relationship has also been found between surface solitons and bulk solitons in nonlocal nonlinear media [33,38].…”
Section: Numerical Simulationsmentioning
confidence: 87%
“…The approximate results are confirmed by the numerical ones which are obtained using the iterative numerical technique based on the NNLSE directly. Since a surface soliton in nonlocal nonlinear media can be regarded as a half of a bulk soliton with an antisymmetric amplitude distribution 43 , 44 , the results on quadrupole-mode solitons here may also be helpful for the investigation of the surface dipole nonlocal solitons.…”
Section: Introductionmentioning
confidence: 94%
“…Moreover, the nonlocal nonlinearity affect the interactions between bright solitons as observed in experiments with lead glasses [2] and nematic liquid crystal [12]. Nonlocality can also support complex solitons states, such as dipole and multipole solitons [13][14][15][16], optical lattice solitons [17][18][19], vortex solitons [20][21][22][23][24], surface solitons [25,26], incoherent solitons [27][28][29] and vector solitons [13,[30][31][32][33][34][35].…”
Section: Introductionmentioning
confidence: 95%