A Local Quantum Phase Transition in YFe2Al10

Abstract

A phase transition occurs when correlated regions of a new phase grow to span the system and the fluctuations within the correlated regions become long-lived. Here we present neutron scattering measurements showing that this conventional picture must be replaced by a new paradigm in 2Al10, a compound that forms naturally very close to a =0 quantum phase transition. Fully quantum mechanical fluctuations of localized moments are found to diverge at low energies and temperatures, however the fluctuating moments are entirely without spatial correlations. Zero temperature order in 2Al10 is achieved by a new and entirely local type of quantum phase transition that may originate with the creation of the moments themselves.