Add to ORKGWe consider interacting bosonic atoms in an optical lattice subject to a large simulated magnetic field. We develop a model similar to a bilayer fractional quantum Hall system valid near simple rational numbers of magnetic flux quanta per lattice cell. Then we calculate its ground state, magnetic lengths, fractional fillings, and find unexpected sign changes in the Hall current. Finally we study methods for detecting these novel features via shot noise and Hall current measurements
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
Ultracold atomic gases in rapidly rotating traps display a wealth of interesting physics. One of the...
We consider interacting bosonic atoms in an optical lattice subject to a large simulated magnetic fi...
We consider interacting bosonic atoms in an optical lattice subject to a large simulated magnetic fi...
We explore the behavior of interacting bosonic atoms in an optical lattice subject to a large artifi...
We describe a method to create fractional quantum Hall states of atoms confined in optical lattices....
We analyze a recently proposed method to create fractional quantum Hall FQH states of atoms confine...
We study interacting bosons on a lattice in a magnetic field. When the number of flux quanta per pla...
When confined to a finite, two-dimensional area and exposed to a strong magnetic field, electrons ex...
International audienceIn two dimensions strongly interacting bosons in a magnetic field can realize ...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
Ultracold atomic gases in rapidly rotating traps display a wealth of interesting physics. One of the...
We consider interacting bosonic atoms in an optical lattice subject to a large simulated magnetic fi...
We consider interacting bosonic atoms in an optical lattice subject to a large simulated magnetic fi...
We explore the behavior of interacting bosonic atoms in an optical lattice subject to a large artifi...
We describe a method to create fractional quantum Hall states of atoms confined in optical lattices....
We analyze a recently proposed method to create fractional quantum Hall FQH states of atoms confine...
We study interacting bosons on a lattice in a magnetic field. When the number of flux quanta per pla...
When confined to a finite, two-dimensional area and exposed to a strong magnetic field, electrons ex...
International audienceIn two dimensions strongly interacting bosons in a magnetic field can realize ...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
Investigations of the fractional quantum Hall effect are extended to spatially varying magnetic fiel...
We consider the purity-based entanglement detection scheme introduced in [C. Moura Alves and D. Jaks...
Ultracold atomic gases in rapidly rotating traps display a wealth of interesting physics. One of the...