Company Filing History:
Years Active: 2021-2024
Title: Innovations of Aaron Stonely in High Energy Laser Technology
Introduction
Aaron Stonely is an accomplished inventor based in McKinney, TX (US). He has made significant contributions to the field of high energy laser technology, holding a total of 4 patents. His work focuses on systems that enhance the performance and accuracy of high energy lasers in various applications.
Latest Patents
Stonely's latest patents include innovative systems designed to correct for atmospheric jitter and high energy laser broadband interference using fast steering mirrors. One of his notable inventions is a system that includes a high energy laser (HEL) configured to transmit a HEL beam, along with a beacon illumination laser (BIL) that transmits a BIL beam. This system utilizes at least one fast steering mirror (FSM) to steer the BIL beam, ensuring it is offset from the HEL beam. Additionally, it incorporates a Coudé path FSM that corrects for atmospheric jitter while maintaining the necessary offset between the beams.
Another patent by Stonely describes a similar system where the HEL beam is aimed at a first location on an airborne target, while the BIL beam is directed at a second, offset location. This system also employs fast steering mirrors to ensure both beams are accurately steered to correct for atmospheric disturbances.
Career Highlights
Aaron Stonely is currently employed at Raytheon Company, where he continues to develop cutting-edge technologies in the field of high energy lasers. His expertise and innovative approach have positioned him as a key contributor to advancements in laser systems.
Collaborations
Stonely has collaborated with notable colleagues, including Dennis C Braunreiter and Daniel Young, who share his commitment to innovation in laser technology.
Conclusion
Aaron Stonely's contributions to high energy laser technology through his patents and work at Raytheon Company highlight his role as a leading inventor in this field. His innovative systems are paving the way for enhanced performance in laser applications.