Abstract
Rapid development of supercomputers and the prospect of quantum computers are posing increasingly serious threats to the security of communication. Using the principles of quantum mechanics, quantum communication offers provable security of communication and is a promising solution to counter such threats. Quantum secure direct communication (QSDC) is one important branch of quantum communication. In contrast to other branches of quantum communication, it transmits secret information directly. Recently, remarkable progress has been made in proof-of-principle experimental demonstrations of QSDC. However, it remains a technical feat to bring QSDC into a practical application. Here, we report the implementation of a practical quantum secure communication system. The security is analyzed in the Wyner wiretap channel theory. The system uses a coding scheme of concatenation of low-density parity-check (LDPC) codes and works in a regime with a realistic environment of high noise and high loss. The present system operates with a repetition rate of 1 MHz at a distance of 1.5 kilometers. The secure communication rate is 50 bps, sufficient to effectively send text messages and reasonably sized files of images and sounds.
Highlights
Economic, political, and social well-being in the world depend crucially on secure communication infrastructures
Present communication is secured through encryption techniques, relying on pre-shared key and cryptographic protocols built on the computational difficulty of certain mathematical problems, for example, the RSA public key scheme[1]
Our practical quantum secure direct communication scheme is based on the DL04 protocol using single photons[12]
Summary
Political, and social well-being in the world depend crucially on secure communication infrastructures. There are potential dangers with the present secure communication system On one hand, these cryptographic protocols are based on mathematically difficult problems that are not rigorously proven to have no efficient solution algorithms. These cryptographic protocols are based on mathematically difficult problems that are not rigorously proven to have no efficient solution algorithms Qi et al Light: Science & Applications (2019)8:22 photons are used to transmit digital information, quantum physics principles give rise to novel capability unachievable with classical transmission media[4]. It is impossible in principle for Eve to eavesdrop without disturbing the transmission so as to avoid detection. Quantum-key distribution[5,6,7,8,9] distributes a random key, rather than the information itself, and the information is sent through another classical communication channel
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