QUANTUM PROBABILITY ENCODING FOR COMMUNICATION SYSTEMS

Organization Name

General Dynamics Mission Systems, Inc.

Inventor(s)

Todd Hodges of Fairfax VA (US)

Glen Uehara of Fairfax VA (US)

QUANTUM PROBABILITY ENCODING FOR COMMUNICATION SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240267130 titled 'QUANTUM PROBABILITY ENCODING FOR COMMUNICATION SYSTEMS

Simplified Explanation

The quantum communication system uses entangled photon streams to convey information through quantum properties.

Key Features and Innovation

• Utilizes a photon source producing entangled photon streams.
• Modulation control signal is established by an encoder for information.
• Optical quantum circuit alters quantum polarization state based on the control signal.
• Information is encoded into quantum probability distributions through quantum parallelism and interference.
• Information is conveyed in the photon streams.

Potential Applications

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

Problems Solved

This technology addresses the need for secure and efficient communication systems that leverage quantum properties for information transfer.

Benefits

• Enhanced security in communication systems.
• Utilizes quantum properties for efficient data transfer.
• Potential for advancements in quantum computing and cryptography.

Commercial Applications

Title: Quantum Communication System for Secure Data Transfer This technology can be commercialized in industries requiring secure communication channels, such as finance, defense, and healthcare.

Prior Art

Readers can explore prior research in the field of quantum communication, quantum cryptography, and quantum information theory for more information.

Frequently Updated Research

Researchers are constantly exploring new advancements in quantum communication systems, quantum entanglement, and quantum information processing.

Questions about Quantum Communication Systems

How does quantum entanglement contribute to secure communication?

Quantum entanglement allows for the creation of secure communication channels by ensuring that any eavesdropping attempts are immediately detected due to the disturbance of entangled particles.

What are the potential limitations of quantum communication systems?

One potential limitation is the current technological constraints in scaling quantum communication systems for widespread use. Researchers are actively working on overcoming these limitations to make quantum communication more practical and accessible.

Original Abstract Submitted

the quantum communication system conveys information by exploiting quantum properties of photon streams. a photon source producing a pair of spatially separated and polarization-entangled photon streams is used. the pair collectively exist in a quantum superposition state by virtue of their mutual entanglement. an encoder establishes a modulation control signal corresponding to the information to be conveyed. an optical quantum circuit is placed in the path of one of the pair of streams, so that the first stream passes through it. the optical quantum circuit alters the quantum polarization state of the photon passing through it based on the control signal. in this way information is encoded into quantum probability distributions of the superposition state through quantum parallelism and quantum interference, whereby information is conveyed in the photon streams.