Specific Heat of defects in the Haldane System Y_2BaNiO_5

K. Hallberg; C.D. Batista; A.A.Aligia (Centro Atomico Bariloche,; Argentina)

arXiv:cond-mat/9709111·cond-mat·October 30, 2009

Specific Heat of defects in the Haldane System Y_2BaNiO_5

K. Hallberg, C.D. Batista, A.A.Aligia (Centro Atomico Bariloche,, Argentina)

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TL;DR

This paper calculates the specific heat of the Y_2BaNiO_5 compound considering defects and magnetic fields, using advanced numerical methods to match experimental anomalies and reveal the nature of low-energy states.

Contribution

It introduces a detailed theoretical calculation of specific heat in a spin-1 chain compound including anisotropies, clarifying the nature of low-energy excitations and defect states.

Findings

01

Schottky anomaly well described by the model

02

Identification of S=1/2 states in large chains

03

Consistency with electron-spin resonance data

Abstract

We calculate the specific heat of the antiferromagnetic spin-1 chain compound Y_2BaNi_{1-x}Zn_xO_5 in the presence of a magnetic field. The low-energy spectrum of a Heisenberg Hamiltonian, which includes realistic anisotropies, has been solved using the density matrix renormalization group. The observed Schottky anomaly is very well described by this theory. For large chains ( $N > 50$ ), contrary to previous interpretations of the specific heat data, we find S=1/2 states. These results are thus also consistent with electron- spin-resonance data for NENP.

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