Quantum criticality in an organic magnet

Exchange interactions between S=(1)/(2) sites in piperazinium hexachlorodicuprate produce a frustrated bilayer magnet with a singlet ground state. We have determined the field-temperature phase diagram by high field magnetization and neutron scattering experiments. There are two quantum critical points: H-c1=7.5 T separates a quantum paramagnet phase from a three dimensional, antiferromagnetically ordered state while H-c2=37 T marks the onset of a fully polarized state. The ordered phase, which we describe as a magnon Bose-Einstein condensate (BEC), is embedded in a quantum critical regime with short range correlations. A low temperature anomaly in the BEC phase boundary indicates that additional low energy features of the material become important near H-c1.