Add to ORKGWe suggest a novel approach to soliton control and routing based on Bloch-wave filtering in periodic photonic structures. Taking a binary waveguide array as an example, we demonstrate that spatial solitons that belong to different spectral gaps can be selectively reflected from or transmitted through an engineered defect, which acts as a low- or high-pass filter for Bloch waves
We demonstrate theoretically and experimentally a novel type of localized beam supported by the comb...
We show that Bloch oscillations are possible in dissipative optical waveguide lattices with a linear...
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...
We propose a new approach to the soliton switching in periodic structures based on Bloch-wave filter...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
It is theoretically shown that Bloch (band to band) and soliton (gap to gap) transitions are possibl...
We study optical solitons in chirped periodic optical lattices whose amplitude or frequency changes ...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
We use Bloch oscillations to demonstrate potential light beam propagation control in photonic lattic...
We study the reflection of Bloch wave packets at the interface of an optical lattice possessing a sh...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We propose and demonstrate reduced symmetry photonic surfaces providing highly controlled Bloch wave...
We show that Bloch oscillations are possible in dissipative optical waveguide lattices with a linear...
Using binary photonic crystals as an example, it is shown in a physically transparent manner how to ...
We show that discrete dissipative optical lattice solitons are possible in waveguide array configura...
We demonstrate theoretically and experimentally a novel type of localized beam supported by the comb...
We show that Bloch oscillations are possible in dissipative optical waveguide lattices with a linear...
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...
We propose a new approach to the soliton switching in periodic structures based on Bloch-wave filter...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
It is theoretically shown that Bloch (band to band) and soliton (gap to gap) transitions are possibl...
We study optical solitons in chirped periodic optical lattices whose amplitude or frequency changes ...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
We use Bloch oscillations to demonstrate potential light beam propagation control in photonic lattic...
We study the reflection of Bloch wave packets at the interface of an optical lattice possessing a sh...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We propose and demonstrate reduced symmetry photonic surfaces providing highly controlled Bloch wave...
We show that Bloch oscillations are possible in dissipative optical waveguide lattices with a linear...
Using binary photonic crystals as an example, it is shown in a physically transparent manner how to ...
We show that discrete dissipative optical lattice solitons are possible in waveguide array configura...
We demonstrate theoretically and experimentally a novel type of localized beam supported by the comb...
We show that Bloch oscillations are possible in dissipative optical waveguide lattices with a linear...
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...