Relativistic quantum cryptography for open space without clock synchronization on the receiver and transmitter sides |
| |
Authors: | S N Molotkov |
| |
Institution: | 1.Academy of Cryptography of the Russian Federation,Moscow,Russia;2.Institute of Solid State Physics,Russian Academy of Sciences,Chernogolovka, Moscow region,Russia;3.Faculty of Computational Mathematics and Cybernetics,Moscow State University,Moscow,Russia |
| |
Abstract: | The security of keys in quantum cryptography is based on fundamental quantum mechanical exclusions (the exclusion of cloning
and copying of nonorthogonal quantum states. The physical type of a quantum object that carries information (photon, electron,
atom, etc.) is insignificant; only its state vector is important. In relativistic quantum cryptography for open space, both
the time of the information carrier (photon that propagates with the extremely allowable velocity in a vacuum) and its quantum
state are of fundamental importance. Joint fundamental constraints that are dictated by both special relativity and quantum
mechanics on the discrimination of nonorthogonal quantum states allow one to formulate fundamentally new key distribution
protocols that are stable against any attacks on a key and guarantee the security of keys for a nonstrictly single-photon
source and any losses in the communication channel. Although this protocol is a real-time protocol in the Minkowski space-time,
where the attack to the communication channel is detected by the delay of eavesdropper measurement results, the protocol does not require clock synchronization on the transmitter and receiver sides. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|