High efficiency controlled quantum secure direct communication with 4D qudits and Grover search algorithm

TL;DR

This paper introduces a high-efficiency controlled quantum secure direct communication protocol using 4D qudits and a three-party decoding mechanism, enhancing security and scalability in quantum networks.

Contribution

It presents a novel protocol leveraging 4D qudits and a collaborative unitary decoding scheme to improve efficiency and security in quantum secure direct communication.

Findings

Achieves a qudit efficiency of 66.7%.

Provides multi-layer security with decoy photons.

Outperforms existing schemes in efficiency.

Abstract

Currently, the progress of quantum secure direct communication (QSDC) is impeded by a fundamental trade off among control efficiency, security, and scalability. This study proposes an innovative controlled QSDC protocol based on a collaborative unitary sequence decoding paradigm to break this deadlock.Leveraging four dimensional single particle states, the protocol's core innovation lies in its three party decoding mechanism. The controller's authorization unlocks a specific unitary operation sequence, enabling the receiver to directly decode exclusively via quantum operations, eliminating the need for classical computational algorithms in conventional protocols. This tailored sequence underpins its high efficiency.The protocol also seamlessly incorporates decoy photon authentication, creating a multi layer defense against both external and internal attacks. Consequently, it achieves a remarkable qudit efficiency of 66.7%, offering a significant performance improvement over existing schemes and an efficient, highly secure solution for future quantum networks.