A method of synthesizing localized optical fields with zeroes on a periodic lattice is analyzed. The applicability to addressing atoms trapped in optical lattices with low crosstalk is discussed
This paper proposes a simple setup for introducing an artificial magnetic field for neutral atoms in...
We propose a scheme for realizing lattice potentials of subwavelength spacing for ultracold atoms. I...
Ultra-cold atoms systems used as quantum simulators offer an alternative way to simulate many-body s...
We study Bessel beams of two-level atoms that are driven by a linearly polarized laser field. Starti...
This thesis describes a number of theoretical and experimental studies on the production, manipulati...
We observe experimentally nonlinear localization of beams in two-dimensional modulated Bessel-type p...
Optical lattices are periodic arrangements of laser cooled atoms trapped in potentials created by th...
We consider a physical scheme for the realization of optical lattices that have negative refracting ...
A classical realization of the atom-field interaction Hamiltonian, based on the transport of light i...
We review the recent developments in the field of photonic lattices emphasizing their unique propert...
4 pages, submitted to PRAInternational audienceWe propose a new geometry of optical lattice for cold...
The imaging of neutral atoms confined in an optical lattice has been demonstrated by a number of gro...
Ordinary Bessel beams are described in terms of the generalized Lorenz-Mie theory (GLMT) by adopting...
International audienceUltra-cold atoms systems used as quantum simulators offer an alternative way t...
Propagation invariant light fields such as Bessel light beams are of interest in a variety of curren...
This paper proposes a simple setup for introducing an artificial magnetic field for neutral atoms in...
We propose a scheme for realizing lattice potentials of subwavelength spacing for ultracold atoms. I...
Ultra-cold atoms systems used as quantum simulators offer an alternative way to simulate many-body s...
We study Bessel beams of two-level atoms that are driven by a linearly polarized laser field. Starti...
This thesis describes a number of theoretical and experimental studies on the production, manipulati...
We observe experimentally nonlinear localization of beams in two-dimensional modulated Bessel-type p...
Optical lattices are periodic arrangements of laser cooled atoms trapped in potentials created by th...
We consider a physical scheme for the realization of optical lattices that have negative refracting ...
A classical realization of the atom-field interaction Hamiltonian, based on the transport of light i...
We review the recent developments in the field of photonic lattices emphasizing their unique propert...
4 pages, submitted to PRAInternational audienceWe propose a new geometry of optical lattice for cold...
The imaging of neutral atoms confined in an optical lattice has been demonstrated by a number of gro...
Ordinary Bessel beams are described in terms of the generalized Lorenz-Mie theory (GLMT) by adopting...
International audienceUltra-cold atoms systems used as quantum simulators offer an alternative way t...
Propagation invariant light fields such as Bessel light beams are of interest in a variety of curren...
This paper proposes a simple setup for introducing an artificial magnetic field for neutral atoms in...
We propose a scheme for realizing lattice potentials of subwavelength spacing for ultracold atoms. I...
Ultra-cold atoms systems used as quantum simulators offer an alternative way to simulate many-body s...
Add to ORKG