Ballistic-to-diffusive transition in spin chains with broken integrability

Ferreira, João S.; Filippone, Michele

doi:10.1103/physrevb.102.184304

Cited by 15 publications

(14 citation statements)

References 78 publications

(115 reference statements)

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“…This situation is described by the Lindblad operator [36,[49][50][51]54,60,61,64,65,[68][69][70][71][72][73][74][75]…”

Section: A Lindblad Boundary Conditionsmentioning

confidence: 99%

“…Beyond experimental interest, for which the Lindblad coupling is the proper microscopic description, on the theory side, this approach has allowed to unveil nontrivial properties of highly excited and correlated systems: Integrable structures, traditionally restrained to closed systems in the quantum realm [49][50][51][52][53][54][55][56]; the existence of ballistics spin transport [36,57,58] and anomalous diffusion [59][60][61] in the integrable XXZ model, thus allowing for the discovery of Kardar-Parisi-Zhang correlations [62,63] in the quantum realm [64][65][66][67]. Additionally, it has allowed to characterize the anomalous transport properties of disordered [68,69] and quasiperiodic [70] interacting systems, the persistence of ballistic transport in the presence of level repulsion induced by single impurities [71][72][73], and ballistic-to-diffusive transition induced by integrability breaking in finite-sized systems [74,75].…”

Section: Introductionmentioning

confidence: 99%

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Generic transport formula for a system driven by Markovian reservoirs

2020

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We present a generic, compact formula for the current flowing in interacting and noninteracting systems which are driven out of equilibrium by biased reservoirs described by Lindblad jump operators. We show that, in the limit of high temperature and chemical potential, our formula is equivalent to the well-known Meir-Wingreen formula, which describes the current flowing through a system connected to fermionic baths, therefore bridging the gap between the two formalisms. Our formulation gives a systematic way to address the transport properties of correlated systems strongly driven out of equilibrium. As an illustration, we provide explicit calculations of the current in three cases : (i) a single-site impurity, (ii) a free-fermionic chain, and (iii) a fermionic chain with loss and gain terms along the chain. In this last case, we find that the current across the system has the same behavior for loss or gain terms and depends on the loss/gain rate in a nonmonotonic way.

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“…This situation is described by the Lindblad operator [36,[49][50][51]54,60,61,64,65,[68][69][70][71][72][73][74][75]…”

Section: A Lindblad Boundary Conditionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Generic transport formula for a system driven by Markovian reservoirs

2020

Self Cite

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“…To achieve this, we followed a similar recipe to the one described in Appendix A of Ref. [60]. For a set of parameters L, V , η and D:…”

Section: S3 Open Systems With Mpsmentioning

confidence: 99%

Efficient quantum information probes of non-equilibrium quantum criticality

Oliveira¹,

Ribeiro²,

Kirchner³

2021

Preprint

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In this letter we address the problem of detecting phase transitions without prior knowledge of a suitable order parameter. To this end, we propose a notion of metric based on the distance between single-particle covariance matrices. Unlike the well-known fidelity susceptibility, this quantity is accessible to commonly employed numerical techniques and can potentially serve as a versatile instrument to identify phase transitions beyond Landau's paradigm.In particular, we demonstrate that one choice of metric, which we dubbed single-particle affinity and that coincides with the fidelity for quadratic models can identify non-equilibrium phase transitions. This is shown for a boundary-driven fermion chain under Markovian dissipation, that escapes Landau's framework. We also apply this method to a fermion ladder and find a rather rich phase diagram, contrary to what would be expected from preceding related work on spin ladders.

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“…An extensive amount of work on high temperature transport focusing on spin-half models in one dimensional (1D) quantum systems [2][3][4][5][6][7][8][9][10][11] has shown that breaking integrability generally leads to diffusive energy transport. It has been analytically argued that integrability in clean systems typically leads to ballistic energy transport [7,12].…”

Section: Introductionmentioning

confidence: 99%

“…We aim to address the question of how energy transport is affected by the model parameters, in particular how integrability affects transport in this model. Transport through the chain is simulated using the Lindblad Master Equation (LME) approach implemented using Matrix Product State (MPS) techniques [11,13,15,25].…”

Section: Introductionmentioning

confidence: 99%

Energy transport in Z3 chiral clock model

Nishad

Sreejith

2022

New J. Phys.

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We characterize the energy transport in a one dimensional Z3 chiral clock model. The model generalizes the Z2 symmetric transverse field Ising model (TFIM). The model is parametrized by a chirality parameter Θ, in addition to f and J which are analogous to the transverse field and the nearest neighbour spin coupling in the TFIM. Unlike the well studied TFIM and XYZ models, does not transform to a fermionic system. We use a matrix product states implementation of the Lindblad master equation to obtain the non-equilibrium steady state (NESS) in systems of sizes up to 48. We present the estimated NESS current and its scaling exponent γ as a function of Θ at different f/J. The estimated γ(f/J,Θ) point to a ballistic energy transport along a line of integrable points f=Jcos{3Θ} in the parameter space; all other points deviate from ballistic transport. Analysis of finite size effects within the available system sizes suggest a diffusive behavior away from the integrable points.

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Ballistic-to-diffusive transition in spin chains with broken integrability

Cited by 15 publications

References 78 publications

Generic transport formula for a system driven by Markovian reservoirs

Generic transport formula for a system driven by Markovian reservoirs

Efficient quantum information probes of non-equilibrium quantum criticality

Energy transport in Z3 chiral clock model

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