747 research outputs found
Entanglement entropy of highly degenerate states and fractal dimensions
We consider the bipartite entanglement entropy of ground states of extended
quantum systems with a large degeneracy. Often, as when there is a
spontaneously broken global Lie group symmetry, basis elements of the
lowest-energy space form a natural geometrical structure. For instance, the
spins of a spin-1/2 representation, pointing in various directions, form a
sphere. We show that for subsystems with a large number m of local degrees of
freedom, the entanglement entropy diverges as (d/2) log m, where d is the
fractal dimension of the subset of basis elements with nonzero coefficients. We
interpret this result by seeing d as the (not necessarily integer) number of
zero-energy Goldstone bosons describing the ground state. We suggest that this
result holds quite generally for largely degenerate ground states, with
potential applications to spin glasses and quenched disorder.Comment: 5 pages. v2: Small changes, published versio
Rank one discrete valuations of power series fields
In this paper we study the rank one discrete valuations of the field
whose center in k\lcor\X\rcor is the maximal ideal. In
sections 2 to 6 we give a construction of a system of parametric equations
describing such valuations. This amounts to finding a parameter and a field of
coefficients. We devote section 2 to finding an element of value 1, that is, a
parameter. The field of coefficients is the residue field of the valuation, and
it is given in section 5.
The constructions given in these sections are not effective in the general
case, because we need either to use the Zorn's lemma or to know explicitly a
section of the natural homomorphism R_v\to\d between the ring and
the residue field of the valuation .
However, as a consequence of this construction, in section 7, we prove that
k((\X)) can be embedded into a field L((\Y)), where is an algebraic
extension of and the {\em ``extended valuation'' is as close as possible to
the usual order function}
Key polynomials for simple extensions of valued fields
Let be a simple transcendental extension
of valued fields, where is equipped with a valuation of rank 1. That
is, we assume given a rank 1 valuation of and its extension to
. Let denote the valuation ring of . The purpose
of this paper is to present a refined version of MacLane's theory of key
polynomials, similar to those considered by M. Vaqui\'e, and reminiscent of
related objects studied by Abhyankar and Moh (approximate roots) and T.C. Kuo.
Namely, we associate to a countable well ordered set the are called {\bf key
polynomials}. Key polynomials which have no immediate predecessor are
called {\bf limit key polynomials}. Let .
We give an explicit description of the limit key polynomials (which may be
viewed as a generalization of the Artin--Schreier polynomials). We also give an
upper bound on the order type of the set of key polynomials. Namely, we show
that if then the set of key polynomials has
order type at most , while in the case
this order type is bounded above by , where stands
for the first infinite ordinal.Comment: arXiv admin note: substantial text overlap with arXiv:math/060519
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