Add to ORKGWe address ring-shaped surface waves supported by defocusing thermal media with circular cross-section. Such waves exist because of the balance between repulsion from the interface and deflection of light from the bulk medium due to defocusing nonlocal nonlinearity. The properties of such surface waves are determined by the geometry of the sample. Nodeless ring surface waves are stable for all values of their winding number, while surface waves with a small number of azimuthal nodes can be metastable.Peer Reviewe
We reveal that lattice interfaces imprinted in nonlocal nonlinear media support surface solitons tha...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...
We address ring-shaped surface waves supported by defocusing thermal media with circular cross-secti...
We address ring-shaped surface waves supported by defocusing thermal media with circular cross-secti...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We address the formation of optical surface waves at the very edge of semiconductor materials illumi...
We address the formation of optical surface waves at the very edge of semiconductor materials illumi...
We introduce a novel type of surface waves that form at the edge of guiding structures consisting of...
We introduce a novel type of surface waves that form at the edge of guiding structures consisting of...
We study both linear and nonlinear surface waves localized at the interface separating a left-handed...
When two dissimilar nonlinear photonic materials are placed together, the boundary between them form...
Linear and nonlinear surface waves localized at the interface separating a left-handed (LH) medium a...
We reveal that lattice interfaces imprinted in nonlocal nonlinear media support surface solitons tha...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...
We address ring-shaped surface waves supported by defocusing thermal media with circular cross-secti...
We address ring-shaped surface waves supported by defocusing thermal media with circular cross-secti...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We predict that the interface of materials with defocusing thermal nonlinearities supports stable fu...
We address the formation of optical surface waves at the very edge of semiconductor materials illumi...
We address the formation of optical surface waves at the very edge of semiconductor materials illumi...
We introduce a novel type of surface waves that form at the edge of guiding structures consisting of...
We introduce a novel type of surface waves that form at the edge of guiding structures consisting of...
We study both linear and nonlinear surface waves localized at the interface separating a left-handed...
When two dissimilar nonlinear photonic materials are placed together, the boundary between them form...
Linear and nonlinear surface waves localized at the interface separating a left-handed (LH) medium a...
We reveal that lattice interfaces imprinted in nonlocal nonlinear media support surface solitons tha...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...
This paper investigates the fundamental dispersion properties of surface waves (SWs) supported by a ...