Unidimensional Continuous Variable Quantum Key Distribution under Fast Fading Channel

In this paper, the performance of a unidimensional continuous variable quantum key distribution protocol is analyzed using Gaussian modulated coherent state under fast fading channel. In the fast fading channel, both parties are connected in free space, resulting in a harsh propagation environment and pollution caused by atmospheric turbulence. This pollution makes it difficult for the communicators to determine the channel transmittance, which can only be estimated based on a probability distribution. To address this, only one modulator is used to code, which demonstrates performance equivalent to that of the symmetric modulated Gaussian coherent state protocol. The security of the protocol in the face of collective attacks is analyzed and it is proved that it can accept a certain amount of excessive channel noise while simplifying operations. Simultaneously, the impact of finite-key length effects on the protocol is analyzed. It is also demonstrated that this protocol can reduce costs within an acceptable range of performance losses, making it more practical. This paper analyzes the performance of a unidimensional continuous-variable quantum key distribution protocol using Gaussian-modulated coherent states under a fast-fading channel. It uses only one modulator for encoding and demonstrates its ability to tolerate a certain level of excessive channel noise while simplifying operations. This protocol has been proven to reduce costs within an acceptable range of performance losses.image