Add to ORKGPropagation of coherent light through a disordered network is accompanied by randomization and possible conversion into thermal light. Here, we show that network topology plays a decisive role in determining the statistics of the emerging field if the underlying lattice is endowed with chiral symmetry. In such lattices, eigenmode pairs come in skew-symmetric pairs with oppositely signed eigenvalues. By examining one-dimensional arrays of randomly coupled waveguides arranged on linear and ring topologies, we are led to a remarkable prediction: The field circularity and the photon statistics in ring lattices are dictated by its parity while the same quantities are insensitive to the parity of a linear lattice. For a ring lattice, adding or su...
We analyze spontaneous parametric down-conversion in various experimentally feasible one-dimensional...
Light escape from an optical waveguide side-coupled to a waveguide lattice provides a photonic analo...
We theoretically demonstrate natural optical activity in disordered ensembles of nonchiral plasmonic...
Coherent light traversing disordered media usually attains a random field both in amplitude and phas...
We examine propagation of coherent light in one-dimensional disordered photonic lattices with non-tr...
Monochromatic coherent light traversing a disordered photonic medium evolves into a random field who...
Propagation of coherent waves through disordered media, whether optical, acoustic, or radio waves, r...
The formation of gaps - forbidden ranges in the values of a physical parameter - is common to a vari...
We experimentally demonstrate deterministic tuning of photon statistics from sub-thermal to super-th...
We show that coherent light travelling through a 1-D lattice of waveguides with off-diagonal disorde...
We demonstrate deterministic control over the photon-number distribution by interfering two coherent...
We experimentally demonstrate deterministic tuning of photon statistics and controlled bunching of p...
We show that coherent light traveling through a 1-D lattice of coupled waveguides with off-diagonal ...
We study light-matter interactions in the bulk of a two-dimensional photonic lattice system, where p...
We show that coherent light traveling through a 1-D lattice of coupled waveguides with off-diagonal ...
We analyze spontaneous parametric down-conversion in various experimentally feasible one-dimensional...
Light escape from an optical waveguide side-coupled to a waveguide lattice provides a photonic analo...
We theoretically demonstrate natural optical activity in disordered ensembles of nonchiral plasmonic...
Coherent light traversing disordered media usually attains a random field both in amplitude and phas...
We examine propagation of coherent light in one-dimensional disordered photonic lattices with non-tr...
Monochromatic coherent light traversing a disordered photonic medium evolves into a random field who...
Propagation of coherent waves through disordered media, whether optical, acoustic, or radio waves, r...
The formation of gaps - forbidden ranges in the values of a physical parameter - is common to a vari...
We experimentally demonstrate deterministic tuning of photon statistics from sub-thermal to super-th...
We show that coherent light travelling through a 1-D lattice of waveguides with off-diagonal disorde...
We demonstrate deterministic control over the photon-number distribution by interfering two coherent...
We experimentally demonstrate deterministic tuning of photon statistics and controlled bunching of p...
We show that coherent light traveling through a 1-D lattice of coupled waveguides with off-diagonal ...
We study light-matter interactions in the bulk of a two-dimensional photonic lattice system, where p...
We show that coherent light traveling through a 1-D lattice of coupled waveguides with off-diagonal ...
We analyze spontaneous parametric down-conversion in various experimentally feasible one-dimensional...
Light escape from an optical waveguide side-coupled to a waveguide lattice provides a photonic analo...
We theoretically demonstrate natural optical activity in disordered ensembles of nonchiral plasmonic...