QUANTUM PROBABILITY ENCODING FOR PATH IDENTIFICATION, QUANTUM RELAYS AND FASTER DATA RATES

Organization Name

General Dynamics Mission Systems, Inc.

Inventor(s)

Todd Hodges of Fairfax VA (US)

Glen Uehara of Fairfax VA (US)

Jacob Glasby of Fairfax VA (US)

QUANTUM PROBABILITY ENCODING FOR PATH IDENTIFICATION, QUANTUM RELAYS AND FASTER DATA RATES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340090 titled 'QUANTUM PROBABILITY ENCODING FOR PATH IDENTIFICATION, QUANTUM RELAYS AND FASTER DATA RATES

Simplified Explanation

The patent application describes a system that uses the quantum properties of photon streams to convey information. It involves using pairs of spatially separated and polarization-entangled photon streams that exist in a quantum superposition state. An encoder modulates one stream with information, while an optical quantum circuit alters the polarization state based on a control signal. A second information source modulates the other stream, increasing the information density of the system.

• Quantum relay and quantum signal source exploit quantum properties of photon streams
• Pairs of spatially separated and polarization-entangled photon streams are used
• Information is encoded into quantum probability distributions through quantum parallelism and interference
• Optical quantum circuit alters the polarization state based on a control signal
• Second information source modulates the other stream, enhancing information density

Potential Applications

The technology could be used in secure communication systems, quantum computing, and quantum cryptography.

Problems Solved

The system addresses the need for secure and efficient information transmission using quantum properties.

Benefits

The technology offers enhanced security, increased information density, and potential for quantum computing applications.

Commercial Applications

• Secure communication systems
• Quantum computing technology
• Quantum cryptography applications

Questions about Quantum Relay and Quantum Signal Source

What are the potential commercial applications of this technology?

The potential commercial applications include secure communication systems, quantum computing, and quantum cryptography.

How does the system address the need for secure information transmission?

The system uses quantum properties of photon streams to encode information, making it highly secure against traditional eavesdropping methods.

Original Abstract Submitted

the quantum relay and quantum signal source exploit quantum properties of photon streams. 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. in the relay, 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. in the signal source a second information source is used to modulate the other of the pair of streams, thus enhancing the information density of the system, by encoding both in the probability distribution and in the correlation of the photon arrival times.