来自长虫洞的近似量子密码

IF 5.1 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Quantum Pub Date : 2024-08-14 DOI:10.22331/q-2024-08-14-1439
Gregory Bentsen, Phuc Nguyen, Brian Swingle
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引用次数: 0

摘要

我们讨论了近似量子纠错码系列,它们是由非交换项组成的某些量子多体哈密顿的近退化基态。对于精确编码,纠错条件可以用低温热场双态中双面互信息的消失来表述。我们考虑了近似码的距离概念,要求这种互信息很小,并对 SYK 模型和一系列低阶 SYK 模型的互信息进行了评估。我们对 SYK 模型和一系列低阶 SYK 模型的互信息进行了评估。经过对接近零温度的推断,我们发现当费米子数量 $N$ 变为无穷大时,这两种模型都能产生速率恒定的费米子密码。对 SYK 来说,距离按 $N^{1/2}$ 缩放,而对低阶 SYK 来说,距离可以任意接近线性缩放,例如 $N^{.99}$,同时保持恒定的速率。我们还考虑了无低能琐态性质的类似性质,并将其称为 "无低能绝热可及态性质",结果表明这些模型确实存在可以在不随系统大小 $N$ 变化的时间内绝热制备的低能态。我们讨论了这些密码的全息模型,其中大密码距离是一个简单量子引力模型中出现长虫洞几何的结果。
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Approximate Quantum Codes From Long Wormholes
We discuss families of approximate quantum error correcting codes which arise as the nearly-degenerate ground states of certain quantum many-body Hamiltonians composed of non-commuting terms. For exact codes, the conditions for error correction can be formulated in terms of the vanishing of a two-sided mutual information in a low-temperature thermofield double state. We consider a notion of distance for approximate codes obtained by demanding that this mutual information instead be small, and we evaluate this mutual information for the SYK model and for a family of low-rank SYK models. After an extrapolation to nearly zero temperature, we find that both kinds of models produce fermionic codes with constant rate as the number, $N$, of fermions goes to infinity. For SYK, the distance scales as $N^{1/2}$, and for low-rank SYK, the distance can be arbitrarily close to linear scaling, e.g. $N^{.99}$, while maintaining a constant rate. We also consider an analog of the no low-energy trivial states property which we dub the no low-energy adiabatically accessible states property and show that these models do have low-energy states that can be prepared adiabatically in a time that does not scale with system size $N$. We discuss a holographic model of these codes in which the large code distance is a consequence of the emergence of a long wormhole geometry in a simple model of quantum gravity.
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来源期刊
Quantum
Quantum Physics and Astronomy-Physics and Astronomy (miscellaneous)
CiteScore
9.20
自引率
10.90%
发文量
241
审稿时长
16 weeks
期刊介绍: Quantum is an open-access peer-reviewed journal for quantum science and related fields. Quantum is non-profit and community-run: an effort by researchers and for researchers to make science more open and publishing more transparent and efficient.
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