绝热规势与自由费米子的可整性突破

IF 4.6 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY SciPost Physics Pub Date : 2024-09-09 DOI:10.21468/scipostphys.17.3.075
Balázs Pozsgay, Rustem Sharipov, Anastasiia Tiutiakina, István Vona
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引用次数: 0

摘要

我们重温了自由费米子量子自旋链中的可整性破缺问题。我们研究了所谓的绝热规势(AGP),它是最近提出的量子混沌的精确探测器。我们还研究了所谓的弱不整定性破缺,如果扰动的动态效应没有出现在扰动参数的前导阶,就会发生这种破缺。最近有文献称,可整性破缺一般会导致 AGP 准则相对于体积的指数增长。然而,后来人们发现,弱可整性破缺是一个反例,会导致多项式增长和指数增长之间的交叉。在这里,我们证明了在自由费米子系统中,如果相对于费米子的扰动是局部的,即使扰动强烈地打破了可整性,AGP 准则也总是多项式增长。作为计算的副产品,我们还发现,在自由费米子自旋链中,有一些算子弱地破坏了可整性,但它们与已知的长程变形无关。
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Adiabatic gauge potential and integrability breaking with free fermions
We revisit the problem of integrability breaking in free fermionic quantum spin chains. We investigate the so-called adiabatic gauge potential (AGP), which was recently proposed as an accurate probe of quantum chaos. We also study the so-called weak integrability breaking, which occurs if the dynamical effects of the perturbation do not appear at leading order in the perturbing parameter. A recent statement in the literature claimed that integrability breaking should generally lead to an exponential growth of the AGP norm with respect to the volume. However, afterwards it was found that weak integrability breaking is a counter-example, leading to a cross-over between polynomial and exponential growth. Here we show that in free fermionic systems the AGP norm always grows polynomially, if the perturbation is local with respect to the fermions, even if the perturbation strongly breaks integrability. As a by-product of our computations we also find, that in free fermionic spin chains there are operators which weakly break integrability, but which are not associated with known long range deformations.
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来源期刊
SciPost Physics
SciPost Physics Physics and Astronomy-Physics and Astronomy (all)
CiteScore
8.20
自引率
12.70%
发文量
315
审稿时长
10 weeks
期刊介绍: SciPost Physics publishes breakthrough research articles in the whole field of Physics, covering Experimental, Theoretical and Computational approaches. Specialties covered by this Journal: - Atomic, Molecular and Optical Physics - Experiment - Atomic, Molecular and Optical Physics - Theory - Biophysics - Condensed Matter Physics - Experiment - Condensed Matter Physics - Theory - Condensed Matter Physics - Computational - Fluid Dynamics - Gravitation, Cosmology and Astroparticle Physics - High-Energy Physics - Experiment - High-Energy Physics - Theory - High-Energy Physics - Phenomenology - Mathematical Physics - Nuclear Physics - Experiment - Nuclear Physics - Theory - Quantum Physics - Statistical and Soft Matter Physics.
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