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Tuesday, December 09, 2008
12:30 PM - 1:30 PM
T-DO Conference Room

Quantum Lunch

Valence-bond solids and deconfined quantum criticality

Roger Melko
University of Waterloo

The modern theory of quantum phase transitions hinges upon the idea of an observable order parameter, related to broken symmetries of the ordered phases, whose fluctuations govern universal properties at criticality. This paradigm has recently been challenged by Senthil and coworkers, who proposed the existence of a "deconfined" quantum critical point (DQCP) - a generic continuous quantum phase transition separating phases with unrelated broken symmetries, and with exotic emergent properties. Prototypically, a DQCP is conjectured to occur between a Neel state and a valence-bond-solid (VBS) phase. Using extensive quantum Monte Carlo simulations, we examine two classes of 2D spin-1/2 models that contain Neel-VBS quantum phase transitions, which have been proposed recently as potential candidates for a DQCP. We focus on finite-temperature properties of the quantum critical region, including scaling behavior and the calculation of universal critical exponents. One case - an SU(2) Heisenberg model with four-spin exchange - stands out as our current best candidate for a DQCP; although this proposal is not without controversy.

Host: Matt Hastings