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Autores principales: Zhang, Jing-Peng, He, Min-Quan, Zhang, Dan-Bo
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2406.10988
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author Zhang, Jing-Peng
He, Min-Quan
Zhang, Dan-Bo
author_facet Zhang, Jing-Peng
He, Min-Quan
Zhang, Dan-Bo
contents The coupon collector is a prototypical model for evaluating the number of samples for identifying a set. By superposing all elements in the set as a pure quantum state, a quantum version of the coupon collector aims to learn the state, which is shown to reduce the sample complexity. Here we propose a quantum coupon collector by encoding the set into a mixed state, where the information of missing elements are labelled with Pauli strings. Remarkably, the encoded mixed state has no quantum entangled state and is easy to prepare. With such mixed-state encoding, it can be efficient to learn the set by performing Bell measurements on two copies and then extracting the missing element by solving a series of equations obtained from the measurements. Our protocol further reduces the sample complexity from $O(n)$ in the case of pure-state encoding to $O(\log n)$ when the missing element is one, where $n$ is the number of elements in the set. The mixed-state encoding scheme provides a new avenue for quantum learning and enlarges the realm for exploring quantum advantages.
format Preprint
id arxiv_https___arxiv_org_abs_2406_10988
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum coupon collector with mixed-state encoding
Zhang, Jing-Peng
He, Min-Quan
Zhang, Dan-Bo
Quantum Physics
The coupon collector is a prototypical model for evaluating the number of samples for identifying a set. By superposing all elements in the set as a pure quantum state, a quantum version of the coupon collector aims to learn the state, which is shown to reduce the sample complexity. Here we propose a quantum coupon collector by encoding the set into a mixed state, where the information of missing elements are labelled with Pauli strings. Remarkably, the encoded mixed state has no quantum entangled state and is easy to prepare. With such mixed-state encoding, it can be efficient to learn the set by performing Bell measurements on two copies and then extracting the missing element by solving a series of equations obtained from the measurements. Our protocol further reduces the sample complexity from $O(n)$ in the case of pure-state encoding to $O(\log n)$ when the missing element is one, where $n$ is the number of elements in the set. The mixed-state encoding scheme provides a new avenue for quantum learning and enlarges the realm for exploring quantum advantages.
title Quantum coupon collector with mixed-state encoding
topic Quantum Physics
url https://arxiv.org/abs/2406.10988