SINGLE PHOTON SOURCE

Organization Name

Purdue Research Foundation

Inventor(s)

Urcan Guler of Avon CT (US)

Alexander Kildishev of West Lafayette IN (US)

Vladimir M. Shalaev of West Lafayette IN (US)

Alexei S. Lagutchev of West Lafayette IN (US)

Andrey N. Smolyaninov of Chimki (RU)

SINGLE PHOTON SOURCE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240345317 titled 'SINGLE PHOTON SOURCE

The invention pertains to single photon emission systems utilizing nano-diamonds. Single-photon sources are crucial for applications in quantum communication, quantum computing, and quantum metrology.

• Nano-diamonds are used as the basis for single photon emission systems.
• Single-photon sources have a wide range of applications in quantum technologies.
• Quantum communication, quantum computing, and quantum metrology benefit from single-photon emission systems.
• The invention aims to enhance the efficiency and reliability of single-photon sources.
• Nano-diamonds offer unique properties that make them ideal for single-photon emission.

Potential Applications: - Quantum communication systems - Quantum computing devices - Quantum metrology tools

Problems Solved: - Improving the performance of single-photon sources - Enhancing the reliability of quantum technologies

Benefits: - Increased efficiency in quantum communication - Enhanced capabilities in quantum computing - Improved accuracy in quantum metrology

Commercial Applications: Title: "Nano-Diamond Single Photon Emission Systems: Commercial Applications and Market Implications" This technology could be utilized in the development of advanced quantum communication systems, cutting-edge quantum computing devices, and high-precision quantum metrology tools. The market implications include potential growth in the quantum technology sector and increased demand for innovative solutions.

Questions about Single Photon Emission Systems: 1. How do nano-diamonds contribute to the efficiency of single-photon sources? Nano-diamonds possess unique properties that make them excellent candidates for single-photon emission systems. Their stability and ability to emit photons at precise wavelengths enhance the performance of these systems.

2. What are the key advantages of using single-photon sources in quantum technologies? Single-photon sources offer enhanced security in quantum communication, increased processing power in quantum computing, and improved accuracy in quantum metrology. Their ability to emit individual photons allows for advanced applications in these fields.

Original Abstract Submitted

the invention related to single photon emission systems based on nano-diamonds. single-photon sources have a broad range of applications in quantum communication, quantum computing and quantum metrology.