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Scalable Simulation of Quantum Measurement Process with Quantum Computers

Quantum Physics 2022-06-29 v1

Abstract

Recent development in quantum information sciences and technologies, especially building programmable quantum computers, provide us new opportunities to study fundamental aspects of quantum mechanics. We propose qubit models to emulate the quantum measurement process, in which the quantum information of a qubit is mapped to a collection of qubits acting as the measurement device. One model is motivated by single-photon detection and the other by spin measurement. Both models are scalable to generate Schr\"{o}dinger cat-like state, and their corresponding quantum circuits are shown explicitly. Large-scale simulations could be realized in near-term quantum computers, while classical computers cannot perform the same task efficiently. Due to the scalability of the models, such simulations can help explore the quantum-to-classical boundary, if exists, in the quantum measurement problem. Besides, our protocol to generate cat states may have important applications in quantum computing and metrology.

Keywords

Cite

@article{arxiv.2206.14029,
  title  = {Scalable Simulation of Quantum Measurement Process with Quantum Computers},
  author = {Meng-Jun Hu and Yanbei Chen and Yiqiu Ma and Xiang Li and Yubao Liu and Yong-Sheng Zhang and Haixing Miao},
  journal= {arXiv preprint arXiv:2206.14029},
  year   = {2022}
}

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R2 v1 2026-06-24T12:07:00.160Z