Rewindable quantum computation and its equivalence to cloning and adaptive postselection

Ryo Hiromasa*, Akihiro Mizutani*, Yuki Takeuchi*, Seiichiro Tani*

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

We define rewinding operators that invert quantum measurements. Then, we define complexity classes RwBQP, CBQP, and AdPostBQP as sets of decision problems solvable by polynomial-size quantum circuits with a polynomial number of rewinding operators, cloning operators, and adaptive postselections, respectively. Our main result is that BPPPP⊇ RwBQP = CBQP = AdPostBQP ⊇ PSPACE. As a byproduct of this result, we show that any problem in PostBQP can be solved with only postselections of outputs whose probabilities are polynomially close to one. Under the strongly believed assumption that BQP ⊉ SZK, or the shortest independent vectors problem cannot be efficiently solved with quantum computers, we also show that a single rewinding operator is sufficient to achieve tasks that are intractable for quantum computation. In addition, we consider rewindable Clifford and instantaneous quantum polynomial time circuits.

Original languageEnglish
Title of host publication18th Conference on the Theory of Quantum Computation, Communication and Cryptography, TQC 2023
EditorsOmar Fawzi, Michael Walter
PublisherSchloss Dagstuhl- Leibniz-Zentrum fur Informatik GmbH, Dagstuhl Publishing
ISBN (Electronic)9783959772839
DOIs
StatePublished - 2023/07
Event18th Conference on the Theory of Quantum Computation, Communication and Cryptography, TQC 2023 - Aveiro, Portugal
Duration: 2023/07/242023/07/28

Publication series

NameLeibniz International Proceedings in Informatics, LIPIcs
Volume266
ISSN (Print)1868-8969

Conference

Conference18th Conference on the Theory of Quantum Computation, Communication and Cryptography, TQC 2023
Country/TerritoryPortugal
CityAveiro
Period2023/07/242023/07/28

Keywords

  • Lattice problems
  • Postselection
  • Quantum computing

ASJC Scopus subject areas

  • Software

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