Add to ORKGWe address the impact of spin-orbit coupling on the existence and properties of topological edge states of cold neutral atoms and Bose-Einstein condensates loaded in honeycomb Zeeman lattices—lattices where the spinor components are placed in potentials having opposite signs. We find that the type of spin-orbit-coupling mechanism has profound effect on the emergence of topological edge states. We also reveal that edge states persist when interatomic interactions are present and that they become metastable in Bose-Einstein condensates.Peer Reviewe
We examine the topological properties of a spin-singlet superconductor with Rashba and Dresselhaus (...
Topological behavior has been observed in quantum systems including ultracold atoms. However, backgr...
We introduce a versatile heterostructure harboring various topological superconducting phases charac...
We address the impact of spin-orbit coupling on the existence and properties of topological edge sta...
This thesis presents theoretical work devoted to the manifestation of the edge states of boson topol...
We study the spin edge states in the quantum spin-Hall (QSH) effect on a single-atomic layer graphen...
Combining an analytical and numerical approach we investigate the dispersion of the topologically pr...
International audienceWe investigate realizations of topological insulators with spin-1 bosons loade...
We consider the combined effects of large spin-orbit couplings and a perpendicular magnetic field in...
We investigate realizations of topological insulators with spin-1 bosons loaded in a honeycomb optic...
We study graphene, which has both spin-orbit coupling (SOC), taken to be of the Kane-Mele form, and ...
We propose to use spatial control of the Zeeman energy shifts in an ultracold atomic gas to engineer...
In this work, we explore the rich variety of two-dimensional topological phases that arise when cons...
We consider a system of interacting spin-one atoms in a hexagonal lattice under the presence of a sy...
Since the experimental realization of synthetic gauge fields for neutral atoms, the simulation of to...
We examine the topological properties of a spin-singlet superconductor with Rashba and Dresselhaus (...
Topological behavior has been observed in quantum systems including ultracold atoms. However, backgr...
We introduce a versatile heterostructure harboring various topological superconducting phases charac...
We address the impact of spin-orbit coupling on the existence and properties of topological edge sta...
This thesis presents theoretical work devoted to the manifestation of the edge states of boson topol...
We study the spin edge states in the quantum spin-Hall (QSH) effect on a single-atomic layer graphen...
Combining an analytical and numerical approach we investigate the dispersion of the topologically pr...
International audienceWe investigate realizations of topological insulators with spin-1 bosons loade...
We consider the combined effects of large spin-orbit couplings and a perpendicular magnetic field in...
We investigate realizations of topological insulators with spin-1 bosons loaded in a honeycomb optic...
We study graphene, which has both spin-orbit coupling (SOC), taken to be of the Kane-Mele form, and ...
We propose to use spatial control of the Zeeman energy shifts in an ultracold atomic gas to engineer...
In this work, we explore the rich variety of two-dimensional topological phases that arise when cons...
We consider a system of interacting spin-one atoms in a hexagonal lattice under the presence of a sy...
Since the experimental realization of synthetic gauge fields for neutral atoms, the simulation of to...
We examine the topological properties of a spin-singlet superconductor with Rashba and Dresselhaus (...
Topological behavior has been observed in quantum systems including ultracold atoms. However, backgr...
We introduce a versatile heterostructure harboring various topological superconducting phases charac...