We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-dimensional photonic lattice. Under appropriate conditions of self-focusing nonlinearity, a singly-charged vortex beam can self-trap into a stable semi-infinite gap surface vortex soliton through a four-site excitation. However, a single-site excitation leads to a quasi-localized state in the first photonic gap, and our theoretical analysis illustrates that such a bandgap surface vortex soliton is always unstable. Our experimental results of stable and unstable topological surface solitons are corroborated by direct numerical simulations and linear stability analysis
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate self-trapping of singly-charged vortices at the surface of an optically induced two-d...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
We demonstrate the self-trapping of single- and double-charged optical vortices in waveguide lattice...
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