在量子硬件上重复测量引起的局部和无限温度热化的观察

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY
Alessandro Santini, Andrea Solfanelli, S. Gherardini, G. Giachetti
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引用次数: 2

摘要

在量子超导处理器上,我们观察到由一系列重复的量子投影测量引起的部分和无限温度的热化,穿插着一个单一的(哈密顿)演化。具体而言,在一个量子位和两个量子位系统上,我们根据哈密顿量和测量可观测值的非交换性,在大量量子测量的极限下测试了一个被监测量子系统的状态收敛性。当哈密顿量和观测值不交换时,收敛性是均匀的。相反,当两个算子在其谱分解中具有一个或多个共同的特征向量时,被监测系统的状态在测量可观测特征态所跨的子空间中收敛不同。结果表明,收敛性并不趋向于完全混合(无限温度)状态,而是趋向于可观测基中的块对角线状态,每个测量子空间中有效温度有限。最后,我们量化了量子硬件噪声对数据的影响,并利用去极化量子通道对其进行建模。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Observation of partial and infinite-temperature thermalization induced by repeated measurements on a quantum hardware
On a quantum superconducting processor we observe partial and infinite-temperature thermalization induced by a sequence of repeated quantum projective measurements, interspersed by a unitary (Hamiltonian) evolution. Specifically, on a qubit and two-qubit systems, we test the state convergence of a monitored quantum system in the limit of a large number of quantum measurements, depending on the non-commutativity of the Hamiltonian and the measurement observable. When the Hamiltonian and observable do not commute, the convergence is uniform towards the infinite-temperature state. Conversely, whenever the two operators have one or more eigenvectors in common in their spectral decomposition, the state of the monitored system converges differently in the subspaces spanned by the measurement observable eigenstates. As a result, we show that the convergence does not tend to a completely mixed (infinite-temperature) state, but to a block-diagonal state in the observable basis, with a finite effective temperature in each measurement subspace. Finally, we quantify the effects of the quantum hardware noise on the data by modelling them by means of depolarizing quantum channels.
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来源期刊
Journal of Physics Communications
Journal of Physics Communications PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.60
自引率
0.00%
发文量
114
审稿时长
10 weeks
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