Moment Formalisms applied to a solvable Model with a Quantum Phase Transition. I. Exponential Moment Methods

Details Moment Formalisms applied to a solvable Model with a Quantum Phase Transition. I. Exponential Moment Methods Moment Formalisms applied to a solvable Model with a Quantum Phase Transition. I. Exponential Moment Methods

1999-07-21

arxiv.org/abs/cond-mat/9907314v1

Physics

Condensed Matter

Statistical Mechanics

17 pages Latex2e with amsmath, plus 5 postscript figures

Scientific paper

10.1016/S0550-3213(99)00315-6

We examine the Ising chain in a transverse field at zero temperature from the point of view of a family of moment formalisms based upon the cumulant generating function, where we find exact solutions for the generating functions and cumulants at arbitrary couplings and hence for both the ordered and disordered phases of the model. In a t-expansion analysis, the exact Horn-Weinstein function E(t) has cuts along an infinite set of curves in the complex Jt-plane which are confined to the left-hand half-plane Im Jt < -1/4 for the phase containing the trial state (disordered), but are not so for the other phase (ordered). For finite couplings the expansion has a finite radius of convergence. Asymptotic forms for this function exhibit a crossover at the critical point, giving the excited state gap in the ground state sector for the disordered phase, and the first excited state gap in the ordered phase. Convergence of the t-expansion with respect to truncation order is found in the disordered phase right up to the critical point, for both the ground state energy and the excited state gap. However convergence is found in only one of the Connected Moments Expansions (CMX), the CMX-LT, and the ground state energy shows convergence right to the critical point again, although to a limited accuracy.

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