Company Filing History:
Years Active: 2016-2018
Title: **Innovative Contributions of Jeffery A. Jarboe in Laser-Based Repair Technology**
Introduction
Jeffery A. Jarboe, an accomplished inventor based in Livermore, California, has made significant strides in the field of optical repair technology. With two patents to his name, his innovative methods and systems have advanced the repair processes for fused silica optics, enhancing their durability and performance.
Latest Patents
Jarboe's latest patents focus on the use of infrared (IR) lasers to repair damage sites on surfaces of optical materials. His first patent outlines a system for this repair process, utilizing a laser beam with predetermined wavelengths and power that is precisely focused on the damage site. The IR laser is designed to maintain its focus on the site for a specific exposure period, allowing the damage to be heated to a peak temperature. This heating causes the material at the site to melt and reflow, thereby creating a mitigated site that restores the integrity of the optical material. His second patent details the method for this innovative repair technique, emphasizing the same principles of focused laser application to achieve effective repair without evaporation of the material.
Career Highlights
Jeffery A. Jarboe is currently employed at Lawrence Livermore National Security, LLC, where he leverages his expertise in optics and laser technology. His career reflects a commitment to innovation and quality, positioning him as a leading figure in the realm of optical repair solutions.
Collaborations
Throughout his career, Jarboe has collaborated with notable colleagues such as John J. Adams and Masoud Bolourchi. These partnerships contribute to a dynamic research environment where creative ideas flourish, fostering advancements in laser-based technology.
Conclusion
Jeffery A. Jarboe's contributions to the field of optical repair through his innovative patents exemplify the importance of research and development in advancing technology. His work not only enhances the functionality of fused silica optics but also sets a precedent for future innovations in the area of laser application for material repairs.