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Exact calculation of the magnetocaloric effect in the spin-1/2 XXZ chain

We calculate the entropy and cooling rate of the antiferromagnetic spin-1/2 XXZ chain under an adiabatic demagnetization process using the quantum transfer-matrix technique and non-linear integral equations. The limiting case of the Ising chain (corresponding to infinitely large anisotropy) is presented for comparison. Our exact results for the Heisenberg chain are used as a crosscheck for the numerical exact diagonalization as well as Quantum Monte Carlo simulations and allow us to benchmark the numerical methods. Close to field-induced quantum phase transitions we observe a large magnetocaloric effect. Furthermore, we verify universal low-temperature power laws in the cooling rate and entropy, in particular linear scaling of entropy with temperature T in the gapless Luttinger-liquid state and scaling as \sqrt{T} at field-induced transitions to gapped phases.

preprint2009arXivOpen access
Christian TrippeAndreas HoneckerAndreas KlümperVadim Ohanyan
cond-mat.stat-mechcond-mat.str-el
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Christian TrippeAndreas HoneckerAndreas KlümperVadim Ohanyan

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