Company Filing History:
Years Active: 1991
Title: Innovations in Fluoride Glass Fibers by Nicholas Garito
Introduction
Nicholas Garito is an accomplished inventor based in Fairfax Station, VA (US). He is known for his significant contributions to the field of optical fibers, particularly in the development of fluoride glass fibers with reduced defects. His innovative approach has led to advancements in the production processes of these specialized fibers.
Latest Patents
Garito holds a patent for "Fluoride glass fibers with reduced defects." This patent describes a process that introduces several improvements in the production of fluoride glass preforms and the drawing of fibers. The method reduces bubble formation and crystallization by employing techniques such as vertically spinning a fluoride glass melt within a glass cladding tube at high rotational speeds. Additionally, the patent outlines alternative methods, including pouring a fluoride glass core melt into a cladding tube while gradually raising the mold from an inclined to a vertical position. The production of fibers is further enhanced by conducting at least one production phase in an atmosphere containing reactive gases that scavenge molecules that could otherwise react with, hydrolyze, and oxidize the fluoride glass.
Career Highlights
Nicholas Garito is associated with Infrared Fiber Systems, Inc., where he applies his expertise in optical fiber technology. His work has been instrumental in advancing the capabilities of fluoride glass fibers, making them more efficient and reliable for various applications.
Collaborations
Garito has collaborated with notable colleagues, including Danh C Tran and Reza Mossadegh. These partnerships have contributed to the innovative developments in the field of optical fibers.
Conclusion
Nicholas Garito's work in the field of fluoride glass fibers exemplifies the impact of innovation on technology. His patent and contributions to Infrared Fiber Systems, Inc. highlight the importance of continuous improvement in optical fiber production processes.