Litcius/Paper detail

Quantum Monte Carlo simulation of spin-boson models using wormhole updates

Manuel Weber

2022Physical review. B./Physical review. B19 citationsDOIOpen Access PDF

Abstract

We present an exact quantum Monte Carlo method for spin systems coupled to dissipative bosonic baths which makes use of nonlocal wormhole updates to simulate the retarded spin-flip interactions originating from an off-diagonal spin-boson coupling. The method is closely related to the stochastic series expansion and extends the scope of the global directed-loop updates to nonlocal moves through a world-line configuration. We test our method for the U(1)-symmetric two-bath spin-boson model, where the off-diagonal components of a spin-1/2 particle are coupled to identical independent baths with power-law spectra, and get a precise estimate of the critical coupling between the critical and the localized phase. Our method applies to impurity systems and lattice models in any spatial dimension coupled to bosonic modes with arbitrary spectral distributions.

Topics & Concepts

Statistical physicsMonte Carlo methodPhysicsQuantum Monte CarloMonte Carlo molecular modelingWormholeBosonMonte Carlo method in statistical physicsQuantumDynamic Monte Carlo methodHybrid Monte CarloQuantum mechanicsMarkov chain Monte CarloMathematicsStatisticsPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaQuantum many-body systems