Litcius/Paper detail

Lieb-Liniger Bosons in a Shallow Quasiperiodic Potential: Bose Glass Phase and Fractal Mott Lobes

Hepeng Yao, Thierry Giamarchi, Laurent Sanchez-Palencia

2020Physical Review Letters94 citationsDOIOpen Access PDF

Abstract

The emergence of a compressible insulator phase, known as the Bose glass, is characteristic of the interplay of interactions and disorder in correlated Bose fluids. While widely studied in tight-binding models, its observation remains elusive owing to stringent temperature effects. Here we show that this issue may be overcome by using Lieb-Liniger bosons in shallow quasiperiodic potentials. A Bose glass, surrounded by superfluid and Mott phases, is found above a critical potential and for finite interactions. At finite temperature, we show that the melting of the Mott lobes is characteristic of a fractal structure and find that the Bose glass is robust against thermal fluctuations up to temperatures accessible in quantum gases. Our results raise questions about the universality of the Bose glass transition in such shallow quasiperiodic potentials.

Topics & Concepts

Quasiperiodic functionCondensed matter physicsBosonPhysicsSuperfluidityUniversality (dynamical systems)Bose gasPhase transitionQuasicrystalQuantumMott transitionMott insulatorThermal fluctuationsQuantum mechanicsSuperconductivityBose–Einstein condensateHubbard modelQuantum many-body systemsCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamics