English

Efficient learning of arbitrary single-copy quantum states

General Physics 2025-04-30 v3

Abstract

Quantum state tomography is the problem of estimating a given quantum state. Usually, it is required to run the quantum experiment - state preparation, state evolution, measurement - several times to be able to estimate the output quantum state of the experiment, because an exponentially high number of copies of the state is required. In this work, we present an efficient algorithm to estimate with a small but non-zero probability of error the output state of the experiment using a single copy of the state, without knowing the evolution dynamics of the state. It also does not destroy the original state, which can be recovered easily for any further quantum processing. As an example, it is usually required to repeat a quantum image processing experiment many times, since many copies of the state of the output image are needed to extract the information from all its pixels. The information from N\mathcal{N} pixels of the image can be inferred from a single run of the image processing experiment in our algorithm, to efficiently estimate the density matrix of the image state.

Keywords

Cite

@article{arxiv.2310.19748,
  title  = {Efficient learning of arbitrary single-copy quantum states},
  author = {Shibdas Roy and Filippo Caruso and Srushti Patil and Anumita Mukhopadhyay},
  journal= {arXiv preprint arXiv:2310.19748},
  year   = {2025}
}

Comments

6 pages, 3 figures, Accepted at IEEE qCCL 2025, Hong Kong

R2 v1 2026-06-28T13:06:14.243Z