Add to ORKGStrongly correlated quantum systems can exhibit exotic behavior controlled by topology. We predict that the ν=1/2 fractional Chern insulator arises naturally in a two-dimensional array of driven, dipolar-interacting spins. As a specific implementation, we analyze how to prepare and detect synthetic gauge potentials for the rotational excitations of ultracold polar molecules trapped in a deep optical lattice. With the motion of the molecules pinned, under certain conditions, these rotational excitations form a fractional Chern insulating state. We present a detailed experimental blueprint for its realization and demonstrate that the implementation is consistent with near-term capabilities. Prospects for the realization of such phases in soli...
Topological insulators are band insulators which are fundamentally different from atomic insulators....
We present a concrete example of fractional Chern insulator whose fermion Hamiltonian consists of ho...
Topological insulators and their intriguing edge states can be understood in a single-particle pictu...
Strongly correlated quantum systems can exhibit exotic behavior controlled by topology. We predict t...
We demonstrate the realization of topological band structures by exploiting the intrinsic spin-orbit...
We show how the phases of interacting particles in topological flat bands, known as fractional Chern...
Topological insulators and their intriguing edge states can be understood in a single-particle pictu...
Lattice models forming bands with higher Chern number offer an intriguing possibility for new phases...
We propose a set of schemes to create and probe fractionally charged excitations of a fractional Che...
We show that, quite generically, a [111] slab of spin-orbit coupled pyrochlore lattice exhibits surf...
We study the phase diagram of interacting electrons in a dispersionless Chern band as a function of ...
The interplay among symmetry, topology and condensed matter systems has deepened our understandings ...
The Harper-Hofstadter model provides a fractal spectrum containing topological bands of any integer ...
The recent theoretical discovery of fractional Chern insulators (FCIs) has provided an important new...
Topological insulators are band insulators which are fundamentally different from atomic insulators....
Topological insulators are band insulators which are fundamentally different from atomic insulators....
We present a concrete example of fractional Chern insulator whose fermion Hamiltonian consists of ho...
Topological insulators and their intriguing edge states can be understood in a single-particle pictu...
Strongly correlated quantum systems can exhibit exotic behavior controlled by topology. We predict t...
We demonstrate the realization of topological band structures by exploiting the intrinsic spin-orbit...
We show how the phases of interacting particles in topological flat bands, known as fractional Chern...
Topological insulators and their intriguing edge states can be understood in a single-particle pictu...
Lattice models forming bands with higher Chern number offer an intriguing possibility for new phases...
We propose a set of schemes to create and probe fractionally charged excitations of a fractional Che...
We show that, quite generically, a [111] slab of spin-orbit coupled pyrochlore lattice exhibits surf...
We study the phase diagram of interacting electrons in a dispersionless Chern band as a function of ...
The interplay among symmetry, topology and condensed matter systems has deepened our understandings ...
The Harper-Hofstadter model provides a fractal spectrum containing topological bands of any integer ...
The recent theoretical discovery of fractional Chern insulators (FCIs) has provided an important new...
Topological insulators are band insulators which are fundamentally different from atomic insulators....
Topological insulators are band insulators which are fundamentally different from atomic insulators....
We present a concrete example of fractional Chern insulator whose fermion Hamiltonian consists of ho...
Topological insulators and their intriguing edge states can be understood in a single-particle pictu...