Classical Shadow Tomography with Locally Scrambled Quantum Dynamics
组织者
演讲者
尤亦庄
时间
2022年05月06日 14:00 至 15:00
地点
Shuangqing-A626
线上
Zoom 427 154 2002
(BIMSA)
摘要
Quantum state tomography is an essential task in quantum information processing, which aims to reconstruct an unknown quantum state from data collected from repeated measurements. Classical shadow tomography is recently proposed as efficient quantum state tomography approach based on randomized measurements. We generalize the classical shadow tomography scheme to a broad class of finite-depth or finite-time local unitary ensembles, known as locally scrambled quantum dynamics, where the unitary ensemble is invariant under local basis transformations. In this case, the reconstruction map for the classical shadow tomography depends only on the average entanglement feature of classical snapshots. We provide an unbiased estimator of the quantum state as a linear combination of reduced classical snapshots in all subsystems, where the combination coefficients are solely determined by the entanglement feature. We numerically demonstrate our approach for finite-depth local unitary circuits and finite-time local-Hamiltonian generated evolutions. The shallow-circuit measurement can achieve a lower tomography complexity compared to the existing method based on Pauli or Clifford measurements. Our approach significantly broadens the application of classical shadow tomography on near-term quantum devices, such as trapped ion or Rydberg atom quantum simulators.
演讲者介绍
尤亦庄,加利福尼亚大学圣迭戈分校助理教授。研究领域为理论凝聚态物理,强关联系统,量子拓扑物态,多体局域化与热化,纠缠,张量网络,以及全息原理与机器学习。