Laser Ultrastable Photonics with Integrated Nonlinearity for Extended Stability

Organization Name

The Regents of the University of California

Inventor(s)

Daniel J. Blumenthal of Santa Barbara CA (US)

Scott Papp of Gaithersburg MD (US)

Laser Ultrastable Photonics with Integrated Nonlinearity for Extended Stability - A simplified explanation of the abstract

This abstract first appeared for US patent application 18527017 titled 'Laser Ultrastable Photonics with Integrated Nonlinearity for Extended Stability

Simplified Explanation: The abstract describes optical photonic integrated optical clocks on photonic integrated circuits, which offer atomic clock-level timing stability in a compact and low-power form. These clocks are fabricated using CMOS foundry processes.

• Optical photonic integrated optical clocks provide atomic clock-level timing stability.
• These clocks are compact and low-power.
• Fabricated using CMOS foundry processes.

Potential Applications: 1. Telecommunications networks 2. Satellite communication systems 3. Data centers 4. Navigation systems 5. Scientific research facilities

Problems Solved: 1. Lack of compact and low-power timing solutions with atomic clock-level stability. 2. Need for high-precision timing in various applications. 3. Space constraints in integrating timing solutions.

Benefits: 1. Ultra-high timing stability 2. Reduced power consumption 3. Compact size for easy integration 4. Reliable performance in demanding environments

Commercial Applications: Optical photonic integrated optical clocks can revolutionize timing solutions in telecommunications, satellite communication, data centers, and scientific research, offering unprecedented stability and efficiency.

Prior Art: There may be existing patents or research on optical clocks and photonic integrated circuits, but the specific combination described in this patent application may be novel.

Frequently Updated Research: Research on improving the fabrication processes for optical photonic integrated optical clocks and enhancing their performance in different applications is ongoing.

Questions about Optical Photonic Integrated Optical Clocks: 1. How do optical photonic integrated optical clocks compare to traditional atomic clocks in terms of accuracy? 2. What are the potential challenges in commercializing optical photonic integrated optical clocks?

Original Abstract Submitted

Optical photonic integrated optical clocks on photonic integrated circuits are described. The optical clocks can provide the timing stability of atomic clocks at ultra-low size and power. The optical clocks are be fabricated using CMOS foundry fabrication processes.