Bose glass and Mott glass of quasiparticles in a doped quantum magnet

TL;DR

This paper reports the experimental observation of a Bose glass phase of magnetic quasiparticles in a doped quantum magnet, demonstrating the transition from a Bose glass to a Bose-Einstein condensate with universal scaling behavior.

Contribution

It provides the first quantitative experimental evidence of universal features of disordered bosons in the grand-canonical ensemble, specifically in a doped quantum magnet system.

Findings

Observation of a Bose glass phase in a doped quantum magnet.

Universal scaling law for the transition from Bose glass to BEC.

Agreement of experimental results with theoretical predictions.

Abstract

The low-temperature states of bosonic fluids exhibit fundamental quantum effects at the macroscopic scale: the best-known examples are Bose-Einstein condensation (BEC) and superfluidity, which have been tested experimentally in a variety of different systems. When bosons are interacting, disorder can destroy condensation leading to a so-called Bose glass. This phase has been very elusive to experiments due to the absence of any broken symmetry and of a finite energy gap in the spectrum. Here we report the observation of a Bose glass of field-induced magnetic quasiparticles in a doped quantum magnet (Br-doped dichloro-tetrakis-thiourea-Nickel, DTN). The physics of DTN in a magnetic field is equivalent to that of a lattice gas of bosons in the grand-canonical ensemble; Br-doping introduces disorder in the hoppings and interaction strengths, leading to localization of the bosons into a Bose glass down to zero field, where it acquires the nature of an incompressible Mott glass. The transition from the Bose glass (corresponding to a gapless spin liquid) to the BEC (corresponding to a magnetically ordered phase) is marked by a novel, universal exponent governing the scaling on the critical temperature with the applied field, in excellent agreement with theoretical predictions. Our study represents the first, quantitative account of the universal features of disordered bosons in the grand-canonical ensemble.