GLOBAL PHASE TRACKING AND PREDICTING METHOD SUITABLE FOR TWIN-FIELD QUANTUM KEY DISTRIBUTION SYSTEM

Organization Name

Nanjing University of Posts and Telecommunications

Inventor(s)

Qin Wang of Jiangsu (CN)

Jingyang Liu of Jiangsu (CN)

Xingyu Zhou of Jiangsu (CN)

GLOBAL PHASE TRACKING AND PREDICTING METHOD SUITABLE FOR TWIN-FIELD QUANTUM KEY DISTRIBUTION SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240380580 titled 'GLOBAL PHASE TRACKING AND PREDICTING METHOD SUITABLE FOR TWIN-FIELD QUANTUM KEY DISTRIBUTION SYSTEM

Simplified Explanation

This patent application describes a method for tracking and predicting global phase changes in a twin-field quantum key distribution system using a time-aware sequence to sequence network mounted on a field-programmable gate array.

Key Features and Innovation

• Global phase changes at subsequent time points are tracked and predicted based on two-phase scan count and real-time environmental parameters.
• The method compensates for phase disturbances in real-time, ensuring long-term global phase stability.

Potential Applications

This technology can be applied in quantum communication systems, secure data transmission, and cryptography.

Problems Solved

This method addresses the challenge of maintaining global phase stability in quantum key distribution systems, which is crucial for secure communication.

Benefits

• Enhanced security in quantum communication systems.
• Improved reliability of data transmission.
• Real-time compensation for phase disturbances.

Commercial Applications

Title: "Secure Quantum Communication Systems" This technology can be used in industries requiring secure communication, such as finance, government, and healthcare. It can also be integrated into network security solutions for businesses.

Prior Art

Readers interested in prior art related to this technology can explore research papers on quantum key distribution systems, phase tracking methods, and FPGA-based networks.

Frequently Updated Research

Researchers are continually exploring advancements in quantum key distribution systems, phase tracking algorithms, and FPGA technology to enhance the security and efficiency of communication networks.

Questions about Twin-Field Quantum Key Distribution System

How does this method improve the security of quantum communication systems?

This method enhances security by ensuring long-term global phase stability, which is essential for secure data transmission.

What are the potential commercial applications of this technology beyond quantum communication systems?

This technology can be utilized in various industries requiring secure communication, such as finance, government, and healthcare, as well as in network security solutions for businesses.

Original Abstract Submitted

a global phase tracking and predicting method suitable for a twin-field quantum key distribution system is provided. a time-aware sequence to sequence network (s2s) specially mounted on a field-programmable gate array (fpga) is designed. in the global phase tracking and predicting method, global phase changes at a plurality of subsequent time points are tracked and predicted according to two-phase scan count and external environmental parameters acquired in real time, and the tracking and prediction results are then used to compensate phase disturbance in real time, thereby ensuring long-time global phase stability.