>> Center for Computational Physics

Publications

Communications in Physics 32, 223-232 (2022)

ISSN: 0868-3166

SECURE INFORMATION EXCHANGE WITHOUT PRIOR KEY DISTRIBUTION VIA SINGLE-PHOTON HYPERSTATES

NGUYEN BA AN

Methods for two distant parties to exchange their secret messages using single photons are considered. There existed several such methods but they are either insecure or face with information leakage problem. Recently, Ye et al. [Quantum Inf. Process. 20 (2021) 209] have reported a method using single photons in both polarization and spatial degrees of freedom that is both efficient and resistant from information leakage. However, this method is not so feasible as it has specific limitations, namely, it requires availability of quantum memory and high classical communication cost. In this paper a new method to overcome the above-said limitations is proposed. The proposed method is also efficient because it also uses single photons in two degrees of freedom. However, the encoding operation in the proposed method is modified so that no quantum memory is demanded at all and the execution of the method is simpler compared to that of Ye et al.. Moreover, the cost of classical communication in our method is 50% cheaper than that in the method of Ye et al. Therefore, the proposed method proves to be feasible, simple and economical that could be realized by means of current technologies. Keywords: secure information exchange; information leakage; single-photon hyperstates.


URL: DOI: https://doi.org/10.15625/0868-3166/17064

Download: