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Conductor-Insulator Quantum Phase Transitions$
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Vladimir Dobrosavljevic, Nandini Trivedi, and James M. Valles, Jr.

Print publication date: 2012

Print ISBN-13: 9780199592593

Published to Oxford Scholarship Online: September 2012

DOI: 10.1093/acprof:oso/9780199592593.001.0001

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Numerical Studies of Metal—Insulator Transitions in Disordered Hubbard Models

Numerical Studies of Metal—Insulator Transitions in Disordered Hubbard Models

Chapter:
(p.121) 5 Numerical Studies of Metal—Insulator Transitions in Disordered Hubbard Models
Source:
Conductor-Insulator Quantum Phase Transitions
Author(s):

S. Chiesa

R.T. Scalettar

P.J.H. Denteneer

P. Chakraborty

T. Paiva

S. Story

Publisher:
Oxford University Press
DOI:10.1093/acprof:oso/9780199592593.003.0005

This chapter reviews Determinant Quantum Monte Carlo studies of the disordered Hubbard Hamiltonian. The effect of the interplay of interactions and a variety of realizations of the randomness, including spatially varying hopping and chemical potentials, on the conductivity, magnetism, Mott gap formation, and s-wave superconductivity is evaluated. Advances in algorithms and in computer hardware have made possible an order of magnitude increase in system sizes over the last several years, and optical lattice emulators of the Hubbard Hamiltonian are providing a new experimental realization of disordered and interacting fermions. This suggests the possibility of new efforts in this field.

Keywords:   Metal-Insulator Transition, Superconductor-Insulator Transition, Hubbard Model, Quantum Monte Carlo

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