用于模拟平移不变伊辛自旋模型的量子优越性
Quantum Supremacy for Simulating a Translation-Invariant Ising Spin Model.
作者信息
Gao Xun, Wang Sheng-Tao, Duan L-M
机构信息
Center for Quantum Information, Institute for Interdisciplinary Information Sciences, Tsinghua University, Beijing 100084, China.
Department of Physics, University of Michigan, Ann Arbor, Michigan 48109, USA.
出版信息
Phys Rev Lett. 2017 Jan 27;118(4):040502. doi: 10.1103/PhysRevLett.118.040502.
We introduce an intermediate quantum computing model built from translation-invariant Ising-interacting spins. Despite being nonuniversal, the model cannot be classically efficiently simulated unless the polynomial hierarchy collapses. Equipped with the intrinsic single-instance-hardness property, a single fixed unitary evolution in our model is sufficient to produce classically intractable results, compared to several other models that rely on implementation of an ensemble of different unitaries (instances). We propose a feasible experimental scheme to implement our Hamiltonian model using cold atoms trapped in a square optical lattice. We formulate a procedure to certify the correct functioning of this quantum machine. The certification requires only a polynomial number of local measurements assuming measurement imperfections are sufficiently small.
我们引入了一种由平移不变的伊辛相互作用自旋构建的中间量子计算模型。尽管该模型不具有通用性,但除非多项式层级坍塌,否则无法用经典方法高效模拟。由于具有内在的单实例硬度属性,与其他依赖于不同酉算子(实例)集合实现的模型相比,我们模型中的单个固定酉演化就足以产生经典难以处理的结果。我们提出了一种可行的实验方案,使用捕获在方形光学晶格中的冷原子来实现我们的哈密顿模型。我们制定了一个程序来验证这个量子机器的正确运行。假设测量缺陷足够小,验证仅需要多项式数量的局部测量。
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