Add to ORKGWe introduce a waveguide array model with alternating positive and negative couplings between adjacent waveguides. Two different settings where such a model can be realized are identified as arrays of defects in Bragg gratings and arrays with propagation constants that periodically vary along the propagation direction. We analyze the properties of wave propagation in such waveguide arrays and find several interesting properties that have no counterpart in the case of arrays with constant couplings. These include the beam self-splitting, self-induced Talbot oscillations, symmetric evolution of Bloch oscillations, and new families of lattice solitons
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
Self-focusing effects in periodic leaky-wave coupled (antiguided) and evanescent-wave coupled array ...
We report on the experimental demonstration of negative coupling constants between defect guides in ...
We experimentally demonstrate negative coupling between two defect guides in a waveguide lattice and...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
We obtain dark and antidark soliton solutions in binary waveguide arrays with focusing and/or defocu...
The propagation dynamics of light in optical waveguide arrays is characteristic of that encountered ...
By nature discrete solitons represent self-trapped wavepackets in nonlinear periodic structures and ...
By nature discrete solitons represent self-trapped wavepackets in nonlinear periodic structures and ...
In the present work, we examine binary waveguide arrays, where the coupling between adjacent sites...
In the present work, we examine “binary” waveguide arrays, where the coupling between adjacent site...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
Self-focusing effects in periodic leaky-wave coupled (antiguided) and evanescent-wave coupled array ...
We report on the experimental demonstration of negative coupling constants between defect guides in ...
We experimentally demonstrate negative coupling between two defect guides in a waveguide lattice and...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
International audienceWe obtain dark and antidark soliton solutions in binary waveguide arrays with ...
We obtain dark and antidark soliton solutions in binary waveguide arrays with focusing and/or defocu...
The propagation dynamics of light in optical waveguide arrays is characteristic of that encountered ...
By nature discrete solitons represent self-trapped wavepackets in nonlinear periodic structures and ...
By nature discrete solitons represent self-trapped wavepackets in nonlinear periodic structures and ...
In the present work, we examine binary waveguide arrays, where the coupling between adjacent sites...
In the present work, we examine “binary” waveguide arrays, where the coupling between adjacent site...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
Self-focusing effects in periodic leaky-wave coupled (antiguided) and evanescent-wave coupled array ...