Quantum rotors in the presence of a random field

Dutta, A ; Bhattacharjee, J. K. (1998) Quantum rotors in the presence of a random field Physical Review B, 58 (10). pp. 6378-6385. ISSN 0163-1829

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Official URL: http://prb.aps.org/abstract/PRB/v58/i10/p6378_1

Related URL: http://dx.doi.org/10.1103/PhysRevB.58.6378

Abstract

We have studied the M-component quantum rotor Hamiltonian in the presence of a static random field (uncorrelated and Gaussian distributed) on each site of the lattice. This model is essentially an M-component generalization of the transverse Ising model in a random longitudinal field. We find that even the zero-temperature transition in the model from a ferromagnetic to the paramagnetic phase, is dominated by the random-field fixed point, which essentially determines the finite-temperature transition in the above model and the transition in the classical M-vector model in the presence of a random field. With the assumption that the transition is of continuous nature, we employ a standard renormalization-group method to study the effective classical action of the model and extract the exponents associated with the transition. We do also extend these renormalization-group calculations to the spherical (MII∞) limit. Finally, we develop a scaling argument that describes the zero-temperature transition and clearly indicates the occurrence of the dynamical exponents in the different scaling relations. We also qualitatively discuss the dynamic scaling scenario in the quantum model.

Item Type:Article
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Deposited On:08 Oct 2010 08:59
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