QUANTUM COMMUNICATION SYSTEM USING ENTANGLED PHOTONS

Organization Name

Unknown Organization

Inventor(s)

BRUNO Sangle-ferriere of Paris (FR)

QUANTUM COMMUNICATION SYSTEM USING ENTANGLED PHOTONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240291574 titled 'QUANTUM COMMUNICATION SYSTEM USING ENTANGLED PHOTONS

The patent application describes a quantum communication system with an emitter of entangled photons, generating pairs of entangled photons emitted on different propagation paths.

• Source generates pairs of entangled photons
• First photon emitted on first path, second photon on second path
• First receiver with complex absorber to absorb photons in selected polarization state
• Second receiver with optical amplifier to multiply second photon while preserving polarization
• Measuring instrument to measure average polarization of multiplied photons

Potential Applications: - Secure communication systems - Quantum cryptography - Quantum computing

Problems Solved: - Ensuring secure communication through quantum entanglement - Enhancing data encryption and decryption processes

Benefits: - Increased security in communication systems - Improved data privacy and protection - Advancement in quantum technology

Commercial Applications: Title: Quantum Communication Systems for Secure Data Transmission Description: This technology can be used in industries requiring high levels of data security, such as finance, defense, and healthcare. It can also be applied in research institutions focusing on quantum technology development.

Prior Art: Readers can explore prior research on quantum communication systems, entangled photons, and quantum cryptography to understand the evolution of this technology.

Frequently Updated Research: Stay updated on the latest advancements in quantum communication systems, quantum entanglement, and photon manipulation techniques for enhanced data security.

Questions about Quantum Communication Systems: 1. How does quantum entanglement ensure secure communication? - Quantum entanglement allows for the instantaneous correlation of properties between entangled particles, ensuring secure communication through the transmission of encrypted information.

2. What are the potential challenges in implementing quantum communication systems on a larger scale? - Challenges may include scalability issues, technological limitations, and the need for robust infrastructure to support widespread adoption of quantum communication systems.

Original Abstract Submitted

a quantum communication system including an emitter of entangled photons, including a source configured in order to generate at least one pair of entangled photons. the at least one pair of entangled photons including a first photon (p) emitted on a first propagation path (d) and simultaneously a second photon (p) emitted on a second propagation path (d) different to the first propagation path. a first receiver arranged on the first propagation path (d), including a complex absorber to absorb the photon in a polarization state selected from among the states of at least two different pairs of complementary polarization states. a second receiver arranged on the second propagation path (d), including an optical amplifier making it possible to multiply the second photon (p) while preserving its polarization and a measuring instrument making it possible to measure the average polarization of the multiplied photons.