English

Quantum multipartite maskers vs quantum error-correcting codes

Quantum Physics 2020-12-02 v2

Abstract

Since masking of quantum information was introduced by Modi et al. in [PRL 120, 230501 (2018)], many discussions on this topic have been published. In this paper, we consider relationship between quantum multipartite maskers (QMMs) and quantum error-correcting codes (QECCs). We say that a subset QQ of pure states of a system KK can be masked by an operator SS into a multipartite system \H^{(n)} if all of the image states SψS|\psi\> of states ψ|\psi\> in QQ have the same marginal states on each subsystem. We call such an SS a QMM of QQ. By establishing an expression of a QMM, we obtain a relationship between QMMs and QECCs, which reads that an isometry is a QMM of all pure states of a system if and only if its range is a QECC of any one-erasure channel. As an application, we prove that there is no an isometric universal masker from \C2\C^2 into \C2\C2\C2\C^2\otimes\C^2\otimes\C^2 and then the states of \C3\C^3 can not be masked isometrically into \C2\C2\C2\C^2\otimes\C^2\otimes\C^2. This gives a consummation to a main result and leads to a negative answer to an open question in [PRA 98, 062306 (2018)]. Another application is that arbitrary quantum states of \Cd\C^d can be completely hidden in correlations between any two subsystems of the tripartite system \Cd+1\Cd+1\Cd+1\C^{d+1}\otimes\C^{d+1}\otimes\C^{d+1}, while arbitrary quantum states cannot be completely hidden in the correlations between subsystems of a bipartite system [PRL 98, 080502 (2007)].

Keywords

Cite

@article{arxiv.2005.11169,
  title  = {Quantum multipartite maskers vs quantum error-correcting codes},
  author = {Kanyuan Han and Zhihua Guo and Huaixin Cao and Yuxing Du and Chuan Yang},
  journal= {arXiv preprint arXiv:2005.11169},
  year   = {2020}
}

Comments

This is a revision about arXiv:2004.14540. In the present version, $k$ and $j$ old Eq. (2.2) have been exchanged and the followed three equations have been corrected

R2 v1 2026-06-23T15:44:24.750Z