Add to ORKGIn a recent paper we conjectured that for ferromagnetic Heisenberg models the smallest eigenvalues in the invariant subspaces of fixed total spin are monotone decreasing as a function of the total spin and called this property ferromagnetic ordering of energy levels (FOEL). We have proved this conjecture for the Heisenberg model with arbitrary spins and coupling constants on a chain. In this paper we give a pedagogical introduction to this result and also discuss some extensions and implications. The latter include the property that the relaxation time of symmetric simple exclusion processes on a graph for which FOEL can be proved, equals the relaxation time of a random walk on ...
Recent results establish for the hard-core model (and more generally for 2-spin antiferromagnetic sy...
The relaxational dynamics of a classical vector Heisenberg spin system is studied using the Fokker-P...
The dynamical exponent z for the critical spin-wave dynamics of nearest-neighbour interacting Heisen...
In a recent paper we conjectured that for ferromagnetic Heisenberg models the smallest eige...
We study a natural conjecture regarding ferromagnetic ordering of energy levels in the Heis...
We give a polynomial-time algorithm for computing upper bounds on some of the smaller energy eigenva...
We show that the infinitesimal generator of the symmetric simple exclusion process, recast as a quan...
We consider the class of quantum spin chains with arbitrary $U_q(\mathfrak{sl}_2)$-invarian...
Journal ArticleThe total spin S is a good quantum number in problems of interacting spins. We have s...
Large spin systems as given by magnetic macromolecules or two-dimensional spin arrays rule out an ex...
We have studied the Heisenberg model on the triangular lattice using quantum Monte Carlo techniques ...
19 pages, 20 figuresInternational audienceWe use a numerical implementation of the strong disorder r...
In a seminal paper [10], Weitz gave a deterministic fully polynomial approximation scheme for counti...
20 pages, 3 figures; v2: minor changes, published versionInternational audienceSystems with long-ran...
A finite temperature perturbation theory for the Heisenberg model of ferromagnetism is pr...
Recent results establish for the hard-core model (and more generally for 2-spin antiferromagnetic sy...
The relaxational dynamics of a classical vector Heisenberg spin system is studied using the Fokker-P...
The dynamical exponent z for the critical spin-wave dynamics of nearest-neighbour interacting Heisen...
In a recent paper we conjectured that for ferromagnetic Heisenberg models the smallest eige...
We study a natural conjecture regarding ferromagnetic ordering of energy levels in the Heis...
We give a polynomial-time algorithm for computing upper bounds on some of the smaller energy eigenva...
We show that the infinitesimal generator of the symmetric simple exclusion process, recast as a quan...
We consider the class of quantum spin chains with arbitrary $U_q(\mathfrak{sl}_2)$-invarian...
Journal ArticleThe total spin S is a good quantum number in problems of interacting spins. We have s...
Large spin systems as given by magnetic macromolecules or two-dimensional spin arrays rule out an ex...
We have studied the Heisenberg model on the triangular lattice using quantum Monte Carlo techniques ...
19 pages, 20 figuresInternational audienceWe use a numerical implementation of the strong disorder r...
In a seminal paper [10], Weitz gave a deterministic fully polynomial approximation scheme for counti...
20 pages, 3 figures; v2: minor changes, published versionInternational audienceSystems with long-ran...
A finite temperature perturbation theory for the Heisenberg model of ferromagnetism is pr...
Recent results establish for the hard-core model (and more generally for 2-spin antiferromagnetic sy...
The relaxational dynamics of a classical vector Heisenberg spin system is studied using the Fokker-P...
The dynamical exponent z for the critical spin-wave dynamics of nearest-neighbour interacting Heisen...