Company Filing History:
Years Active: 2024
Title: Kathryn A O'Hara: Innovator in Silicon Carbide Crystalline Materials
Introduction
Kathryn A O'Hara is a prominent inventor based in Raleigh, NC (US). She has made significant contributions to the field of materials science, particularly in the development of silicon carbide (SiC) crystalline materials. Her innovative work focuses on reducing optical absorption in these materials, which has important implications for various optical applications.
Latest Patents
Kathryn holds a patent for "Reduced optical absorption for silicon carbide crystalline materials." This patent describes SiC crystalline materials and related methods that provide reduced optical absorption. The invention highlights the ability to achieve lower absorption coefficients for wavelengths of light within the visible spectrum. By addressing various peaks in absorption over a wavelength spectrum, her work aims to improve overall absorption coefficient uniformity across the visible spectrum. This advancement can lead to reduced reflection and transmission losses of light in corresponding devices. The related methods include various combinations of crystalline growth, with and without post-growth thermal conditioning steps.
Career Highlights
Kathryn is currently associated with Wolfspeed, Inc., a company known for its advancements in semiconductor technology. Her work at Wolfspeed has positioned her as a key player in the development of innovative materials that enhance the performance of electronic and optical devices.
Collaborations
Throughout her career, Kathryn has collaborated with notable colleagues, including Robert Tyler Leonard and Elif Balkas. These collaborations have contributed to her success and the advancement of research in the field of silicon carbide materials.
Conclusion
Kathryn A O'Hara's contributions to the field of silicon carbide crystalline materials demonstrate her innovative spirit and dedication to advancing technology. Her patent on reducing optical absorption is a testament to her expertise and impact in materials science.