一维面积定律与量子态的复杂性:一种组合方法

D. Aharonov, I. Arad, Zeph Landau, U. Vazirani
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引用次数: 16

摘要

量子态的经典描述通常是量子位的数量呈指数增长。我们能否得到更有限的状态集的多项式描述比如局部哈密顿子的有趣子类的基态?这是研究基态复杂性的基本问题,需要理解基态中的多粒子纠缠和量子相关。区域定律为研究基态的复杂性提供了一个基本要素,因为它们提供了一种以定量方式束缚基态纠缠的方法。尽管长期以来,人们一直对任意维度的许多物体系统进行推测,但直到最近,黑斯廷斯的开创性论文\cite{ref:Has07}才证明了一维系统的一般严格性。本文给出了无挫折系统特殊情况下一维面积律的组合证明,通过指数因子改进了用逆谱隙和粒子维数表示的标度。在解决二维和高维情况下,粒子维度的缩放是一个潜在的重要问题,这是哈密顿复杂性中最重要的开放性问题之一。我们的证明是基于可探测引理的重新表述,由我们在量子间隙放大\cite{ref:Aha09b}的背景下引入。我们给出了一个可检测引理的替代证明,它不仅比原证明更简单直观,而且去掉了原陈述中的一个关键限制,使其更适合于这种新的情况。我们还用一页纸证明了黑斯廷斯关于间隙哈密顿量基态的相关性随距离呈指数衰减的证明,证明了这些问题的组合方法的简单性。
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The 1D Area Law and the Complexity of Quantum States: A Combinatorial Approach
The classical description of quantum states is in general exponential in the number of qubits. Can we get polynomial descriptions for more restricted sets of states such as ground states of interesting subclasses of local Hamiltonians? This is the basic problem in the study of the complexity of ground states, and requires an understanding of multi-particle entanglement and quantum correlations in such states. Area laws provide a fundamental ingredient in the study of the complexity of ground states, since they offer a way to bound in a quantitative way the entanglement in such states. Although they have long been conjectured for many body systems in arbitrary dimensions, a general rigorous was only recently proved in Hastings' seminal paper \cite{ref:Has07} for 1D systems. In this paper, we give a combinatorial proof of the 1D area law for the special case of frustration free systems, improving by an exponential factor the scaling in terms of the inverse spectral gap and the dimensionality of the particles. The scaling in terms of the dimension of the particles is a potentially important issue in the context of resolving the 2D case and higher dimensions, which is one of the most important open questions in Hamiltonian complexity. Our proof is based on a reformulation of the detectability lemma, introduced by us in the context of quantum gap amplification\cite{ref:Aha09b}. We give an alternative proof of the detectability lemma, which is not only simpler and more intuitive than the original proof, but also removes a key restriction in the original statement, making it more suitable for this new context. We also give a one page proof of Hastings' proof that the correlations in the ground states of gapped Hamiltonians decay exponentially with the distance, demonstrating the simplicity of the combinatorial approach for those problems.
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