Field-Induced Quantum Criticality in a Two-Dimensional Antiferromagnet

Tao Hong; Michel Kenzelmann; Matthew Bouloubasis; Daniel Reich; Collin Broholm; Matthew Stone; Emily Dunkel; Subir Sachdev

Field-Induced Quantum Criticality in a Two-Dimensional Antiferromagnet

ORAL

Abstract

We describe neutron scattering measurements on the two-dimensional spin gap antiferromagnet piperanzium hexachlorodicuprate (PHCC) in the vicinity of quantum critical point at which the spin gap is closed by an applied magnetic field. We measure the energy and damping of the propagating $S_z=1$ mode above the spin gap; both quantities become strongly temperature dependent at the critical field. The temperature dependence of the mode energy is successfully described by a self-consistent Hartree-Fock theory of interacting spin excitations.

March 14, 2006, 3:06 PM – March 14, 2006, 3:18 PM

Authors

Tao Hong
Michel Kenzelmann
Matthew Bouloubasis
Daniel Reich

The Johns Hopkins University, Johns Hopkins University
Collin Broholm

Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD 21218, USA, Johns Hopkins University, Department of Physics and Astronomy, Johns Hopkins University
Matthew Stone

Oak Ridge National Laboratory
Emily Dunkel
Subir Sachdev

Harvard University, Harvard University, Department of Physics, Department of Physics, Harvard University