Unknown Organization (20240340091). ENCODER, DECODER, SYSTEMS AND METHODS FOR D-DIMENSIONAL FREQUENCY-ENCODED QUANTUM COMMUNICATION AND INFORMATION PROCESSING simplified abstract
ENCODER, DECODER, SYSTEMS AND METHODS FOR D-DIMENSIONAL FREQUENCY-ENCODED QUANTUM COMMUNICATION AND INFORMATION PROCESSING
Organization Name
Inventor(s)
Mohamed Bourennane of Stockholm (SE)
ENCODER, DECODER, SYSTEMS AND METHODS FOR D-DIMENSIONAL FREQUENCY-ENCODED QUANTUM COMMUNICATION AND INFORMATION PROCESSING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240340091 titled 'ENCODER, DECODER, SYSTEMS AND METHODS FOR D-DIMENSIONAL FREQUENCY-ENCODED QUANTUM COMMUNICATION AND INFORMATION PROCESSING
The present disclosure pertains to an encoder for quantum communication, consisting of a first dispersive element and an encoder modulator. The first dispersive element is designed to time delay states of a d-dimensional frequency-binned single photon based on frequency, effectively time-binning the states of the single photon. The encoder modulator then modulates the time-binned states of the single photon by modulating individual time-bins using a predetermined modulation scheme.
- Utilizes a first dispersive element to time delay states of a single photon based on frequency.
- Achieves time-binning of the states of the single photon.
- Employs an encoder modulator to modulate time-binned states of the single photon by modulating individual time-bins.
- Utilizes a predetermined modulation scheme for the modulation process.
Potential Applications: - Quantum communication systems - Quantum cryptography - Quantum key distribution
Problems Solved: - Enhances the security and efficiency of quantum communication systems - Facilitates the manipulation of single photons for various quantum applications
Benefits: - Improved quantum communication security - Enhanced manipulation of single photons - Increased efficiency in quantum key distribution
Commercial Applications: Title: Quantum Communication Encoder for Enhanced Security This technology can be utilized in industries such as telecommunications, data security, and quantum computing. It has the potential to revolutionize secure communication systems and advance the field of quantum cryptography.
Prior Art: Readers interested in exploring prior art related to this technology can start by researching advancements in quantum communication systems, quantum key distribution, and single photon manipulation techniques.
Frequently Updated Research: Researchers are continuously exploring new methods to enhance the security and efficiency of quantum communication systems. Stay updated on the latest developments in quantum cryptography and quantum key distribution for the most recent advancements in the field.
Questions about Quantum Communication Encoder for Enhanced Security: 1. How does the encoder modulator modulate time-binned states of the single photon? The encoder modulator modulates time-binned states by modulating individual time-bins of the single photon using a predetermined modulation scheme.
2. What are the potential applications of this technology beyond quantum communication systems? This technology can also be applied in quantum cryptography, quantum key distribution, and other quantum computing applications.
Original Abstract Submitted
the present disclosure relates to an encoder for quantum communication, the encoder comprising a first dispersive element and an encoder modulator. the first dispersive element is arranged to obtain photonic output and is configured to time delay states of a d-dimensional frequency-binned single photon comprised in said photonic output based on frequency, thereby time-binning the states of said single photon. the encoder modulator is arranged to modulate time-binned states of the single photon by modulating individual time-bins of said single photon, using a predetermined modulation scheme.
