We demonstrate, both experimentally and theoretically, excitation-dependent self-bending of spatial solitons in nematic liquid crystals. The observed deflection is explained by nonlinear changes in walk-off, as induced by the rotation of the optic axis via power-driven reorientation
We study experimentally the interaction of spatial optical solitons with curved dielectric surfaces ...
We investigate the role of competing nonlinear responses in the formation and propagation of bright ...
We report on what is, to our knowledge, the first experimental observation of spatial soliton intera...
We investigate soliton self-steering owing to the power-dependent walk-off in undoped nematic liquid...
We report on power-dependent self-transverse acceleration of optical spatial solitons in two setting...
We investigate spatial optical solitons propagating in a medium with a saturable but adjustable nonl...
The spontaneous spreading of a laser beam can be compensated in complex media through the interplay ...
Nematic liquid crystals exhibit a saturable nonlinearity, nonlocal in time and in space, owing to li...
We demonstrate that, in suitably designed cells with undoped nematic liquid crystals, extraordinary-...
In certain materials, the spontaneous spreading of a laser beam (owing to diffraction) can be compen...
We model spatial solitons in nematic liquid crystals, accounting for nonperturbative excitation and ...
In certain materials, the spontaneous spreading of a laser beam ( owing to diffraction) can be compe...
Liquid crystals (LC) are excellent media for the exploration of nonlinear phenomena, particularly du...
Spatial solitons in nematic liquid crystals, ornematicons, can be generated in bulk through a reorie...
Optical spatial solitons have been demonstrated in bulk nematic liquid crystals. We present an overv...
We study experimentally the interaction of spatial optical solitons with curved dielectric surfaces ...
We investigate the role of competing nonlinear responses in the formation and propagation of bright ...
We report on what is, to our knowledge, the first experimental observation of spatial soliton intera...
We investigate soliton self-steering owing to the power-dependent walk-off in undoped nematic liquid...
We report on power-dependent self-transverse acceleration of optical spatial solitons in two setting...
We investigate spatial optical solitons propagating in a medium with a saturable but adjustable nonl...
The spontaneous spreading of a laser beam can be compensated in complex media through the interplay ...
Nematic liquid crystals exhibit a saturable nonlinearity, nonlocal in time and in space, owing to li...
We demonstrate that, in suitably designed cells with undoped nematic liquid crystals, extraordinary-...
In certain materials, the spontaneous spreading of a laser beam (owing to diffraction) can be compen...
We model spatial solitons in nematic liquid crystals, accounting for nonperturbative excitation and ...
In certain materials, the spontaneous spreading of a laser beam ( owing to diffraction) can be compe...
Liquid crystals (LC) are excellent media for the exploration of nonlinear phenomena, particularly du...
Spatial solitons in nematic liquid crystals, ornematicons, can be generated in bulk through a reorie...
Optical spatial solitons have been demonstrated in bulk nematic liquid crystals. We present an overv...
We study experimentally the interaction of spatial optical solitons with curved dielectric surfaces ...
We investigate the role of competing nonlinear responses in the formation and propagation of bright ...
We report on what is, to our knowledge, the first experimental observation of spatial soliton intera...
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