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Years Active: 2021-2025
Title: Innovations of Inventor Xingchen Ji
Introduction
Xingchen Ji is a prominent inventor based in New York, NY, known for his significant contributions to the field of optical technologies. With a total of five patents to his name, Ji has made remarkable advancements that have the potential to impact various applications, particularly in medical and communication technologies.
Latest Patents
One of Ji's latest patents is titled "Thermally tunable low broadband waveguides and related systems and methods." This invention involves devices designed for implantation in the brain, featuring emitters that emit light in the visible spectrum. The device includes a proximal portion that remains external to the brain while the distal portion is implanted. The waveguide in this device has a cross-sectional width of less than 500 nm and may include a heating element to adjust the phase of light within the waveguide.
Another notable patent is the "Tunable optical frequency comb generator in microresonators." This invention describes optical frequency combs and related methods, devices, and systems. The device comprises a waveguide that optically couples to an optical source and at least one optical resonator. The resonator can be tuned to generate an optical frequency comb based on mode interaction between different modes of the resonator, with an output coupled to the waveguide.
Career Highlights
Xingchen Ji has worked at prestigious institutions such as Columbia University and Cold Spring Harbor Laboratory. His work at these organizations has allowed him to explore innovative solutions in the field of optics and photonics.
Collaborations
Ji has collaborated with notable colleagues, including Michal Lipson and Xinwen Yao, who have contributed to his research and development efforts.
Conclusion
Xingchen Ji's innovative work in optical technologies showcases his expertise and dedication to advancing the field. His patents reflect a commitment to developing solutions that could have significant implications for both medical and communication technologies.