English

On Statistically-Secure Quantum Homomorphic Encryption

Quantum Physics 2019-04-29 v6 Cryptography and Security

Abstract

Homomorphic encryption is an encryption scheme that allows computations to be evaluated on encrypted inputs without knowledge of their raw messages. Recently Ouyang et al. constructed a quantum homomorphic encryption (QHE) scheme for Clifford circuits with statistical security (or information-theoretic security (IT-security)). It is desired to see whether an information-theoretically-secure (ITS) quantum FHE exists. If not, what other nontrivial class of quantum circuits can be homomorphically evaluated with IT-security? We provide a limitation for the first question that an ITS quantum FHE necessarily incurs exponential overhead. As for the second one, we propose a QHE scheme for the instantaneous quantum polynomial-time (IQP) circuits. Our QHE scheme for IQP circuits follows from the one-time pad.

Keywords

Cite

@article{arxiv.1705.00139,
  title  = {On Statistically-Secure Quantum Homomorphic Encryption},
  author = {Ching-Yi Lai and Kai-Min Chung},
  journal= {arXiv preprint arXiv:1705.00139},
  year   = {2019}
}

Comments

7 pages. IQP+ and IQPP are removed since IQP+ is equivalent to IQP if input states are restricted to the product of plus states

R2 v1 2026-06-22T19:31:45.250Z