Add to ORKGWe address the question of the classification of gapped ground states in one dimension that cannot be distinguished by a local order parameter. We introduce a family of quantum spin systems on the one-dimensional chain that have a unique gapped ground state in the thermodynamic limit that is a simple product state but which on the left and right half-infinite chains, have additional zero energy edge states. The models, which we call Product Vacua with Boundary States (PVBS), form phases that depend only on two integers corresponding to the number of edge states at each boundary. They can serve as representatives of equivalence classes of such gapped ground states phases and we s...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We investigate the persistence of spectral gaps of one-dimensional frustration free quantum lattice ...
We address the question of the classification of gapped ground states in one dimension that...
Abstract. We address the question of the classification of gapped ground states in one dimension tha...
We introduce a family of quantum spin chains with nearest-neighbor interactions that can se...
We introduce and analyze a class of quantum spin models defined on d-dimensional lattices L...
Abstract. We introduce and analyze a class of quantum spin models defined on d-dimensional lattices ...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground s...
Abstract. We discuss the role of compact symmetry groups, G, in the classification of gapped ground ...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground s...
Quantum many-body systems divide into a variety of phases with very different physical properties. T...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground state phas...
We consider quantum spin systems defined on finite sets $V$ equipped with a metric. In typi...
We consider quantum spin systems defined on finite sets $V$ equipped with a metric. In typi...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We investigate the persistence of spectral gaps of one-dimensional frustration free quantum lattice ...
We address the question of the classification of gapped ground states in one dimension that...
Abstract. We address the question of the classification of gapped ground states in one dimension tha...
We introduce a family of quantum spin chains with nearest-neighbor interactions that can se...
We introduce and analyze a class of quantum spin models defined on d-dimensional lattices L...
Abstract. We introduce and analyze a class of quantum spin models defined on d-dimensional lattices ...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground s...
Abstract. We discuss the role of compact symmetry groups, G, in the classification of gapped ground ...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground s...
Quantum many-body systems divide into a variety of phases with very different physical properties. T...
We discuss the role of compact symmetry groups, G, in the classification of gapped ground state phas...
We consider quantum spin systems defined on finite sets $V$ equipped with a metric. In typi...
We consider quantum spin systems defined on finite sets $V$ equipped with a metric. In typi...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We analyze a class of quantum spin models defined on half-spaces in the $d$-dimensional hyp...
We investigate the persistence of spectral gaps of one-dimensional frustration free quantum lattice ...