Paper Info
Title
High-efficient quantum secret sharing based on the Chinese remainder theorem via the orbital angular momentum entanglement analysis
Abstract
We investigate a novel quantum secret sharing (QSS) based on the Chinese remainder theory (CRT) in multi-dimensional Hilbert space with the orbital angular momentum (OAM) entanglement analysis. The secret is divided and then allotted to two or more participants who prepare pairs of photons in the OAM-entanglement states. The initial secret can be restored jointly by legal participants via the OAM-entanglement analysis on the corresponding photons. Its security is guaranteed from the OAM entanglement of photons that are established through the spin angular momentum (SAM) entanglement analysis performed on the generated SAM-based OAM hybrid entanglement photons. It provides an alternative technique for the QSS while producing the OAM entanglement photons in the combined multi-dimensional OAM Hilbert space, where the CRT is conducted properly for sharing the conventional secret among legal participants.
Year
DOI
Venue
2013
10.1007/s11128-012-0459-7
Quantum Information Processing
Keywords
Field
DocType
oam entanglement,orbital angular momentum entanglement,legal participant,oam hybrid entanglement photon,oam hilbert space,initial secret,conventional secret,oam entanglement photon,entanglement analysis,chinese remainder theorem,novel quantum secret sharing,high-efficient quantum secret,oam-entanglement analysis
Hilbert space,Multipartite entanglement,Angular momentum,Photon,Quantum electrodynamics,Quantum entanglement,Quantum mechanics,Remainder,Squashed entanglement,Spin (physics),Physics
Journal
Volume
Issue
ISSN
12
2
1573-1332
Citations 
PageRank 
References 
3
0.47
1
Authors
2
Name
Order
Citations
PageRank
Ying Guo130.47
Yu-Qian Zhao2929.98