Add to ORKGWe show that the effective gauge field for photons provides a versatile platform for controlling the flow of light. As an example we consider a photonic resonator lattice where the coupling strength between nearest neighbor resonators are harmonically modulated. By choosing different spatial distributions of the modulation phases, and hence imposing different inhomogeneous effective magnetic field configurations, we numerically demonstrate a wide variety of propagation effects including negative refraction, one-way mirror, and on- and off-axis focusing. Since the effective gauge field is imposed dynamically after a structure is constructed, our work points to the importance of the temporal degree of freedom for controlling the spatial flow ...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We present the observation of the manipulation of modulational instability in a nonlinear dissipativ...
We propose that, by applying an electric field to a Kerr nonlinear photonic crystal, we can tune its...
We propose to create an effective magnetic field for photons in photonic crystal resonator lattices ...
We propose a waveguiding mechanism based on the effective gauge potential for photons. The waveguide...
Artificial gauge fields for neutral particles such as photons, recently attracted a lot of attention...
Static synthetic magnetic fields give rise to phenomena including the Lorentz force and the quantum ...
We extend the t-z mapping of time-dependent paraxial optics by engineering a synthetic magnetic vect...
AbstractA two-scale asymptotic theory is developed to generate continuum equations that model the ma...
One of concepts giving opportunities for studying of topological insulators in non-magnetic material...
We use semiclassical Hamiltonian optics to investigate the propagation of light rays through two-dim...
A two-scale asymptotic theory is developed to generate continuum equations that model the macroscopi...
We report on the experimental realization of a uniform synthetic magnetic flux and the observation o...
We generalize the scope of Floquet engineering to include spatially-dependent modulations of an opti...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We present the observation of the manipulation of modulational instability in a nonlinear dissipativ...
We propose that, by applying an electric field to a Kerr nonlinear photonic crystal, we can tune its...
We propose to create an effective magnetic field for photons in photonic crystal resonator lattices ...
We propose a waveguiding mechanism based on the effective gauge potential for photons. The waveguide...
Artificial gauge fields for neutral particles such as photons, recently attracted a lot of attention...
Static synthetic magnetic fields give rise to phenomena including the Lorentz force and the quantum ...
We extend the t-z mapping of time-dependent paraxial optics by engineering a synthetic magnetic vect...
AbstractA two-scale asymptotic theory is developed to generate continuum equations that model the ma...
One of concepts giving opportunities for studying of topological insulators in non-magnetic material...
We use semiclassical Hamiltonian optics to investigate the propagation of light rays through two-dim...
A two-scale asymptotic theory is developed to generate continuum equations that model the macroscopi...
We report on the experimental realization of a uniform synthetic magnetic flux and the observation o...
We generalize the scope of Floquet engineering to include spatially-dependent modulations of an opti...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We present the observation of the manipulation of modulational instability in a nonlinear dissipativ...
We propose that, by applying an electric field to a Kerr nonlinear photonic crystal, we can tune its...