QUANTUM SOURCE LABS LTD. (20240272514). DETECTORS, OPTICAL SWITCHES, AND WAVEGUIDES simplified abstract
Contents
DETECTORS, OPTICAL SWITCHES, AND WAVEGUIDES
Organization Name
Inventor(s)
Serge Rosenblum of Rehovot (IL)
DETECTORS, OPTICAL SWITCHES, AND WAVEGUIDES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240272514 titled 'DETECTORS, OPTICAL SWITCHES, AND WAVEGUIDES
The patent application describes a quantum computing system that includes a vacuum enclosure, optical resonators tuned to an alkali atom's resonance, and lasers for trapping and exciting the atom within the resonators.
- Vacuum enclosure sustains a vacuum below 10 millibar
- Optical resonators tuned to resonance of an alkali atom
- Trapping laser maintains the alkali atom within the resonators
- Atom excitation laser induces photon emissions
- Waveguides couple photons to and from the resonators
- Detectors detect presence or absence of atom-resonator coupling
- Processor controls optical switches for switching between waveguides
Potential Applications: - Quantum computing - High-speed data processing - Cryptography - Simulation of complex systems - Optimization problems
Problems Solved: - Enhancing computing power - Improving data processing speed - Advancing encryption techniques - Solving complex mathematical problems - Enhancing simulation capabilities
Benefits: - Faster data processing - Enhanced computational power - Improved security measures - Efficient problem-solving capabilities - Enhanced simulation accuracy
Commercial Applications: Title: Quantum Computing System for Advanced Data Processing This technology can be used in industries such as finance, healthcare, cybersecurity, and scientific research for faster data processing, enhanced encryption, and improved simulation capabilities.
Questions about Quantum Computing System: 1. How does the vacuum enclosure contribute to the efficiency of the quantum computing system? The vacuum enclosure helps maintain a low-pressure environment, reducing interference and enhancing the stability of the system.
2. What role do the optical resonators play in the functioning of the quantum computing system? The optical resonators are tuned to the resonance of an alkali atom, allowing for precise control and manipulation of the atom's state for quantum computing operations.
Original Abstract Submitted
a quantum computing system, method and computer readable medium involve a vacuum enclosure for sustaining a vacuum below 10millibar, optical resonators tuned to a resonance of an alkali atom, and a trapping laser for maintaining the alkali atom within a mode of the optical resonators. an atom excitation laser induces photon emissions, a plurality of waveguides couple photons to and from the optical resonators, and a plurality of detectors detect a presence or absence of an atom-resonator coupling. a processor receives output signals from the detectors and controls optical switches for switching between two or more of the plurality of waveguides.
