Task-dependent semi-quantum secure communication in layered networks with OAM states of light

Abstract

Secure communication in layered networks having differently preferred participants has attracted a lot of research attention. Protocols for key distribution in a layered network have been recently proposed in [M. Pivoluska et al., Phys. Rev. A 97, 032312] by employing asymmetrically entangled multiqudit states. Due to the employment of asymmetrically entangled multiqudit states, the yield of these protocols is very low. To address this issue, in this work, we have proposed semi-quantum secure communication protocols by employing separable states only which give a better yield and a higher key generation rate. As illustrations, we present two representative protocols. The first protocol allows sharing of two keys simultaneously in a network of two layers. The second protocol facilitates direct communication in one layer and key distribution in the other. The separable states, i.e., coherent pulses of orbital angular momentum required in the protocols are easily realizable with current technologies.