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Experimental Sample-Efficient Quantum State Tomography via Parallel Measurements

Chang-Kang Hu, Chao Wei, C. L. Liu, Liangyu Che, Yuxuan Zhou, Guixu Xie, Haiyang Qin, Guangmin Hu, Haolan Yuan, Ruiyang Zhou, Song Liu, Dian Tan, Tao Xin, Dapeng Yu

2024Physical Review Letters13 citationsDOIOpen Access PDF

Abstract

Quantum state tomography (QST) via local measurements on reduced density matrices (LQST) is a promising approach but becomes impractical for large systems. To tackle this challenge, we developed an efficient quantum state tomography method inspired by quantum overlapping tomography [Phys. Rev. Lett. 124, 100401 (2020)PRLTAO0031-900710.1103/PhysRevLett.124.100401], which utilizes parallel measurements (PQST). In contrast to LQST, PQST significantly reduces the number of measurements and offers more robustness against shot noise. Experimentally, we demonstrate the feasibility of PQST in a treelike superconducting qubit chip by designing high-efficiency circuits, preparing W states, ground states of Hamiltonians, and random states, and then reconstructing these density matrices using full quantum state tomography (FQST), LQST, and PQST. Our results show that PQST reduces measurement cost, achieving fidelities of 98.68% and 95.07% after measuring 75 and 99 observables for six-qubit and nine-qubit W states, respectively. Furthermore, the reconstruction of the largest density matrix of the 12-qubit W state is achieved with the similarity of 89.23% after just measuring 243 parallel observables, while 3^{12}=531 441 complete observables are needed for FQST. Consequently, PQST will be a useful tool for future tasks such as the reconstruction, characterization, benchmarking, and properties learning of states.

Topics & Concepts

Quantum tomographyTomographySample (material)QuantumState (computer science)Quantum stateMaterials sciencePhysicsOpticsComputer scienceQuantum mechanicsAlgorithmThermodynamicsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum and electron transport phenomena
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