Nature Abhors a Vacuum: A Simple Rigorous Example of Thermalization in an Isolated Macroscopic Quantum System

IF 1.3 3区 物理与天体物理 Q3 PHYSICS, MATHEMATICAL Journal of Statistical Physics Pub Date : 2024-07-07 DOI:10.1007/s10955-024-03289-6
Naoto Shiraishi, Hal Tasaki
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Abstract

We show, without relying on any unproven assumptions, that a low-density free fermion chain exhibits thermalization in the following (restricted) sense. We choose the initial state as a pure state drawn randomly from the Hilbert space in which all particles are in half of the chain. This represents a nonequilibrium state such that the half chain containing all particles is in equilibrium at infinite temperature, and the other half chain is a vacuum. We let the system evolve according to the unitary time evolution determined by the Hamiltonian and, at a sufficiently large typical time, measure the particle number in an arbitrary macroscopic region in the chain. In this setup, it is proved that the measured number is close to the equilibrium value with probability very close to one. Our result establishes the presence of thermalization in a concrete model in a mathematically rigorous manner. The key for the proof is a new strategy to show that a randomly generated nonequilibrium initial state typically has a large enough effective dimension by using only mild verifiable assumptions. In the present work, we first give general proof of thermalization based on two assumptions, namely, the absence of degeneracy in energy eigenvalues and a property about the particle distribution in energy eigenstates. We then justify these assumptions in a concrete free-fermion model, where the absence of degeneracy is established by using number-theoretic results. This means that our general result also applies to any lattice gas models in which the above two assumptions are justified. To confirm the potential wide applicability of our theory, we discuss some other models for which the essential assumption about the particle distribution is easily verified, and some non-random initial states whose effective dimensions are sufficiently large.

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自然厌恶真空: 隔离宏观量子系统热化的简单严谨实例
我们在不依赖任何未经证实的假设的情况下证明,低密度自由费米子链在以下(受限)意义上表现出热化。我们选择的初始状态是从希尔伯特空间中随机抽取的纯态,其中所有粒子都位于链的一半。这代表了一种非平衡态,即包含所有粒子的半条链在无限温度下处于平衡状态,而另半条链则是真空。我们让系统按照由哈密尔顿确定的单位时间演化来演化,并在足够大的典型时间内测量链中任意宏观区域的粒子数。在这种情况下,可以证明测量到的粒子数以非常接近于 1 的概率接近于平衡值。我们的结果以严谨的数学方式证明了热化现象在具体模型中的存在。证明的关键在于一种新策略,即只需使用温和的可验证假设,就能证明随机生成的非平衡初始状态通常具有足够大的有效维度。在本研究中,我们首先基于两个假设给出了热化的一般证明,即能量特征值不存在退行性以及能量特征状态中粒子分布的属性。然后,我们在一个具体的自由费米子模型中证明了这些假设,并利用数论结果确定了不存在退行性。这意味着我们的一般结果也适用于任何能证明上述两个假设的晶格气体模型。为了证实我们理论潜在的广泛适用性,我们还讨论了其他一些粒子分布基本假设容易验证的模型,以及一些有效尺寸足够大的非随机初始态。
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来源期刊
Journal of Statistical Physics
Journal of Statistical Physics 物理-物理:数学物理
CiteScore
3.10
自引率
12.50%
发文量
152
审稿时长
3-6 weeks
期刊介绍: The Journal of Statistical Physics publishes original and invited review papers in all areas of statistical physics as well as in related fields concerned with collective phenomena in physical systems.
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