Add to ORKGA classical realization of the atom-field interaction Hamiltonian, based on the transport of light in engineered optical waveguide lattices, is theoretically proposed. The optical lattice enables direct visualization of atom-field dynamics in Fock space
Optical lattices are periodic arrangements of laser cooled atoms trapped in potentials created by th...
An optical lattice is a periodic potential for atoms, created using a standing wave pattern of lig...
AbstractMicrocavity polaritons are mixed light–matter quasiparticles with extraordinary nonlinear pr...
A classical realization of the atom-field interaction Hamiltonian, based on the transport of light i...
A classical analog simulator of the two-site Hubbard-Holstein model, describing the dynamics of two ...
Optical lattices are periodic light shift potentials that are created by the interference of several...
Quantum simulation with cold atoms in optical lattices is an attractive avenue for explorations of q...
We present the theoretical basis needed to work in the field of photonic lattices. We start by study...
We theoretically investigate the transport properties of a weak coherent input field scattered by an...
The theoretical basis leading to the creation of a light field with a hexagonal honeycomb structure ...
We propose an easy to use model to solve for interacting atoms in an optical lattice. This model all...
Realizing systems that support robust, controlled interactions between individual photons is an exci...
Atom optical analoga exist for many light-optical elements likemirrors, lenses and beam splitters. ...
Optical lattice are periodic structures made of light, they are formed by the interference of laser ...
It is theoretically shown that the coherent hopping dynamics of a non-relativistic particle in engin...
Optical lattices are periodic arrangements of laser cooled atoms trapped in potentials created by th...
An optical lattice is a periodic potential for atoms, created using a standing wave pattern of lig...
AbstractMicrocavity polaritons are mixed light–matter quasiparticles with extraordinary nonlinear pr...
A classical realization of the atom-field interaction Hamiltonian, based on the transport of light i...
A classical analog simulator of the two-site Hubbard-Holstein model, describing the dynamics of two ...
Optical lattices are periodic light shift potentials that are created by the interference of several...
Quantum simulation with cold atoms in optical lattices is an attractive avenue for explorations of q...
We present the theoretical basis needed to work in the field of photonic lattices. We start by study...
We theoretically investigate the transport properties of a weak coherent input field scattered by an...
The theoretical basis leading to the creation of a light field with a hexagonal honeycomb structure ...
We propose an easy to use model to solve for interacting atoms in an optical lattice. This model all...
Realizing systems that support robust, controlled interactions between individual photons is an exci...
Atom optical analoga exist for many light-optical elements likemirrors, lenses and beam splitters. ...
Optical lattice are periodic structures made of light, they are formed by the interference of laser ...
It is theoretically shown that the coherent hopping dynamics of a non-relativistic particle in engin...
Optical lattices are periodic arrangements of laser cooled atoms trapped in potentials created by th...
An optical lattice is a periodic potential for atoms, created using a standing wave pattern of lig...
AbstractMicrocavity polaritons are mixed light–matter quasiparticles with extraordinary nonlinear pr...