We develop a theory of artificial gauge fields in photon fluids for the cases of both second-order and third-order optical nonlinearities. This applies to weak excitations in the presence of pump fields carrying orbital angular momentum and is thus a type of Bogoliubov theory. The resulting artificial gauge fields experienced by the weak excitations are an interesting generalization of previous cases and reflect the PT-symmetry properties of the underlying non-Hermitian Hamiltonian. We illustrate the observable consequences of the resulting synthetic magnetic fields for examples involving both second-order and third-order nonlinearities
Recently, there has been growing interest in the creation of artificial magnetic fields for uncharge...
Neutral particles subject to artificial gauge potentials can behave as charged particles in magnetic...
Shaking a lattice system, by modulating the location of its sites periodically in time, is a powerfu...
We develop a theory of artificial gauge fields in photon fluids for the cases of both second-order a...
Artificial gauge fields, simulating real phenomenologies that unfold in a vast variety of systems, o...
Static synthetic magnetic fields give rise to phenomena including the Lorentz force and the quantum ...
Artificial gauge fields for neutral particles such as photons, recently attracted a lot of attention...
Accepted for publication in Reviews of Modern Physics (Colloquium)International audienceWhen a neutr...
Recent technological advances in quantum simulators have proven that synthetic materials are very we...
The discovery of artificial gauge fields controlling the dynamics of uncharged particles that otherw...
When a neutral atom moves in a properly designed laser field, its center-of-mass motion may mimic th...
Using the quadratic expansion in the photon fields of Euler-Heisemberg (EH) non-linear electrodynami...
We extend the t-z mapping of time-dependent paraxial optics by engineering a synthetic magnetic vect...
Synthetic gauge fields have provided physicists with a unique tool to explore a wide range of fundam...
Recently, quantum droplets have been demonstrated in dipolar Bose-Einstein condensates, where the lo...
Recently, there has been growing interest in the creation of artificial magnetic fields for uncharge...
Neutral particles subject to artificial gauge potentials can behave as charged particles in magnetic...
Shaking a lattice system, by modulating the location of its sites periodically in time, is a powerfu...
We develop a theory of artificial gauge fields in photon fluids for the cases of both second-order a...
Artificial gauge fields, simulating real phenomenologies that unfold in a vast variety of systems, o...
Static synthetic magnetic fields give rise to phenomena including the Lorentz force and the quantum ...
Artificial gauge fields for neutral particles such as photons, recently attracted a lot of attention...
Accepted for publication in Reviews of Modern Physics (Colloquium)International audienceWhen a neutr...
Recent technological advances in quantum simulators have proven that synthetic materials are very we...
The discovery of artificial gauge fields controlling the dynamics of uncharged particles that otherw...
When a neutral atom moves in a properly designed laser field, its center-of-mass motion may mimic th...
Using the quadratic expansion in the photon fields of Euler-Heisemberg (EH) non-linear electrodynami...
We extend the t-z mapping of time-dependent paraxial optics by engineering a synthetic magnetic vect...
Synthetic gauge fields have provided physicists with a unique tool to explore a wide range of fundam...
Recently, quantum droplets have been demonstrated in dipolar Bose-Einstein condensates, where the lo...
Recently, there has been growing interest in the creation of artificial magnetic fields for uncharge...
Neutral particles subject to artificial gauge potentials can behave as charged particles in magnetic...
Shaking a lattice system, by modulating the location of its sites periodically in time, is a powerfu...