Related papers: Tunable quantum criticality and pseudocriticality across the fixed-point annihilation in the anisotropic spin-boson model

Tunable quantum criticality and pseudocriticality across the fixed-point annihilation in the anisotropic spin-boson model

URL: http://arxiv.org/abs/2403.02400v1
Date: Mon, 4 Mar 2024 19:00:07 GMT
Title: Tunable quantum criticality and pseudocriticality across the fixed-point annihilation in the anisotropic spin-boson model
Authors: Manuel Weber
Abstract summary: We study the nontrivial renormalization-group scenario of fixed-point annihilation in spin-boson models. We find a tunable transition between two localized phases that can be continuous or strongly first-order. We also find scaling behavior at the symmetry-enhanced first-order transition, for which the inverse correlation-length exponent is given by the bath exponent.
Score: 0.26107298043931204
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Spin-boson models are simple examples of quantum dissipative systems, but also serve as effective models in quantum magnetism and exhibit nontrivial quantum criticality. Recently, they have been established as a platform to study the nontrivial renormalization-group (RG) scenario of fixed-point annihilation, in which two intermediate-coupling RG fixed points collide and generate an extremely slow RG flow near the collision. For the Bose Kondo model, a single $S=1/2$ spin where each spin component couples to an independent bosonic bath with power-law spectrum $\propto \omega^s$ via dissipation strengths $\alpha_i$, $i\in\{x,y,z\}$, such phenomena occur sequentially for the U(1)-symmetric model at $\alpha_z=0$ and the SU(2)-symmetric case at $\alpha_z = \alpha_{xy}$, as the bath exponent $s<1$ is tuned. Here we use an exact wormhole quantum Monte Carlo method to show how fixed-point annihilations within symmetry-enhanced parameter manifolds affect the anisotropy-driven criticality across them. We find a tunable transition between two long-range-ordered localized phases that can be continuous or strongly first-order, and even becomes weakly first-order in an extended regime close to the fixed-point collision. We extract critical exponents at the continuous transition, but also find scaling behavior at the symmetry-enhanced first-order transition, for which the inverse correlation-length exponent is given by the bath exponent $s$. In particular, we provide direct numerical evidence for pseudocritical scaling on both sides of the fixed-point collision, which manifests in an extremely slow drift of the correlation-length exponent. In addition, we also study the crossover behavior away from the SU(2)-symmetric case and determine the phase boundary of an extended U(1)-symmetric critical phase for $\alpha_z < \alpha_{xy}$.

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