Undecidability of the Spectral Gap

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-06-10 DOI:10.1017/fmp.2021.15
Toby Cubitt, David Perez-Garcia, Michael M. Wolf
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Abstract

We construct families of translationally invariant, nearest-neighbour Hamiltonians on a 2D square lattice of d-level quantum systems (d constant), for which determining whether the system is gapped or gapless is an undecidable problem. This is true even with the promise that each Hamiltonian is either gapped or gapless in the strongest sense: it is promised to either have continuous spectrum above the ground state in the thermodynamic limit, or its spectral gap is lower-bounded by a constant. Moreover, this constant can be taken equal to the operator norm of the local operator that generates the Hamiltonian (the local interaction strength). The result still holds true if one restricts to arbitrarily small quantum perturbations of classical Hamiltonians. The proof combines a robustness analysis of Robinson’s aperiodic tiling, together with tools from quantum information theory: the quantum phase estimation algorithm and the history state technique mapping Quantum Turing Machines to Hamiltonians.

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谱隙的不可判定性
我们构造平移不变的,最近邻的哈密顿族的二维方形晶格上的d级量子系统(d常数),确定是否系统是间隙或无间隙是一个无法确定的问题。即使承诺每个哈密顿量在最强烈的意义上要么是间隙的,要么是无间隙的,这也是正确的:承诺它要么在热力学极限下具有高于基态的连续谱,要么它的谱间隙是由一个常数下界的。此外,该常数可以取为产生哈密顿量(局部相互作用强度)的局部算子的算子范数。如果我们将经典哈密顿量的微扰限制在任意小的量子上,这个结果仍然成立。该证明结合了罗宾逊非周期平铺的鲁棒性分析,以及量子信息理论的工具:量子相位估计算法和将量子图灵机映射到哈密顿量的历史状态技术。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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