Company Filing History:
Years Active: 2014
Title: Innovations of Natasha Laguodas Wilkerson
Introduction
Natasha Laguodas Wilkerson is an accomplished inventor based in College Park, MD (US). She has made significant contributions to the field of materials science, particularly in the development of innovative dielectric materials. Her work has implications for various applications, including telecommunications and optical devices.
Latest Patents
Natasha holds a patent for a "Broadband artificial dielectric with dynamically optical control." This invention provides a material capable of switching its dielectric constant between distinct first and second values in response to electromagnetic radiation of specified energy. The material consists of a medium that is transparent to the radiation and a plurality of particulates. Each particulate features a dipole that can assume one of two distinct parameters corresponding to the first and second values. The particulates are suspended within the medium, which can be polymethylmethacrylate, while the particulates may be composed of undoped semi-insulating gallium arsenide. This innovative approach allows for enhanced control over the material's properties.
Career Highlights
Natasha is currently employed at the USA as represented by the Secretary of the Navy. Her role involves research and development in advanced materials, where she applies her expertise to create cutting-edge solutions. With her background in materials science, she has been instrumental in driving forward innovative projects that align with national interests.
Collaborations
Natasha has collaborated with notable colleagues, including Kevin A Boulais and Pearl Rayms-Keller. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and expertise, further enhancing the impact of their collective work.
Conclusion
Natasha Laguodas Wilkerson is a pioneering inventor whose work in broadband artificial dielectrics showcases her commitment to advancing materials science. Her innovative contributions continue to influence the field and pave the way for future developments.