N-CONFIGURATION RESONATOR-COUPLED QUANTUM EMITTER

Organization Name

QUANTUM SOURCE LABS LTD.

Inventor(s)

Gil Semo of Tel-Aviv (IL)

Ziv Aqua of Rehovot (IL)

Oded Melamed of Shoham (IL)

Dan Charash of Herzliya (IL)

Serge Rosenblum of Rehovot (IL)

Barak Dayan of Tel-Aviv (IL)

N-CONFIGURATION RESONATOR-COUPLED QUANTUM EMITTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240338586 titled 'N-CONFIGURATION RESONATOR-COUPLED QUANTUM EMITTER

The abstract of this patent application describes a quantum computing system that involves initializing a state of a resonator-coupled quantum emitter with at least four levels arranged in an n-configuration.

• The system tunes the frequencies of different transitions between ground and excited states of the quantum emitter.
• A plurality of photons are fed at a specific frequency to entangle them with the quantum emitter.
• Photons at other frequencies are fed to map the state of the quantum emitter into a photon.

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

Problems Solved: - Enhancing quantum computing capabilities - Improving quantum information processing - Advancing quantum networking technologies

Benefits: - Increased efficiency in quantum computing - Enhanced security in quantum communication - Potential for faster data processing

Commercial Applications: Title: Quantum Computing System for Advanced Data Processing This technology could be utilized in industries such as finance, healthcare, and cybersecurity for secure and efficient data processing.

Prior Art: Readers can explore prior research on resonator-coupled quantum emitters and their applications in quantum technologies.

Frequently Updated Research: Stay updated on the latest developments in quantum computing systems and quantum information processing for cutting-edge advancements in the field.

Questions about Quantum Computing System: 1. How does entangling photons with a quantum emitter enhance quantum computing processes? 2. What are the potential real-world applications of this quantum computing system?

Original Abstract Submitted

a quantum computing system, method, and computer readable medium involves initializing a state of a resonator-coupled quantum emitter having at least four levels arranged in an n-configuration, the n-configuration having a first ground state, a second ground state, a first excited state and a second excited state. a frequency of a first transition between the first ground state and the first excited state is tuned, a frequency of a second transition between the second ground state and the second excited state is tuned, and a frequency of a third transition between the second ground state and the first excited state is tuned. a plurality of photons are fed at a frequency corresponding to the frequency of the second transition, thereby entangling the plurality of photons to the resonator-coupled quantum emitter. likewise, a photon at a frequency corresponding to the frequency of at least one of the first transition or the third transition is fed, thereby mapping a state of the resonator-coupled quantum emitter into a photon.