Company Filing History:
Years Active: 2022-2025
Title: Innovations of Judson D. Ryckman
Introduction
Judson D. Ryckman is an accomplished inventor based in Clemson, SC (US). He has made significant contributions to the field of photonics, holding a total of 3 patents. His work focuses on developing advanced technologies that enhance the performance and efficiency of optical devices.
Latest Patents
One of his latest patents is titled "Physical unclonable function from an integrated photonic interferometer." This patent discloses systems and methods for producing unclonable devices. It addresses the challenges faced by optical physical unclonable functions, which are sensitive to environmental variations. The invention utilizes an integrated quasicrystal interferometer designed to maintain robustness against fluctuations in optical alignment, polarization, and temperature.
Another notable patent is "Deeply sub-wavelength all-dielectric waveguide design and method for making the same." This innovation aims to overcome the limitations of conventional chip-scale photonic devices. By confining and guiding light at deeply sub-wavelength dimensions, it preserves low-loss and broadband operation. This technology has the potential to significantly reduce energy consumption in active photonic components, paving the way for advancements in all-optical and quantum computing devices.
Career Highlights
Judson D. Ryckman is affiliated with Clemson University, where he continues to push the boundaries of photonic technology. His research has been instrumental in developing new methodologies that enhance the capabilities of optical devices.
Collaborations
He has collaborated with notable colleagues, including Nazmus Sakib and Yingjie Lao, to further advance their research in photonics and related fields.
Conclusion
Judson D. Ryckman's innovative work in photonics exemplifies the potential of advanced optical technologies. His contributions are paving the way for future developments in secure hardware applications and efficient light-matter interactions.