Company Filing History:
Years Active: 2008
Title: Innovations by John Dunlop in Laser Technology
Introduction
John Dunlop is a notable inventor based in San Diego, California. He has made significant contributions to the field of laser technology, particularly in the development of optical elements for high-power laser light sources. His innovative work has led to advancements that enhance the performance and efficiency of laser systems.
Latest Patents
John Dunlop holds a patent for "DUV light source optical element improvements." This patent describes a high-power narrow-band, high-repetition-rate laser light source optical improvement apparatus and methods. The invention features a fast angularly positionable mirror with a mounting frame, a reflective optic with a different coefficient from that of the mounting frame, and at least one flexure mount that is flexible. The apparatus may also include a flexure force mechanism with an elongated rod that pre-stresses the flexure. Additionally, the mirror may be a grating with a substrate and a protective silica coating. The grating can be actively tuned using an electro- or magneto-sensitive element, and a hydrogen purge system can remove oxides from the reflective layer when exposed to deep ultraviolet radiation.
Career Highlights
John Dunlop is currently employed at Cymer, Inc., where he continues to innovate in the field of laser technology. His work at Cymer has positioned him as a key player in the development of advanced laser systems used in various applications.
Collaborations
Throughout his career, John has collaborated with notable colleagues, including Richard L. Sandstrom and John Martin Algots. These collaborations have contributed to the advancement of laser technology and the successful development of innovative solutions.
Conclusion
John Dunlop's contributions to laser technology through his patent and work at Cymer, Inc. highlight his role as an influential inventor in the field. His innovations continue to impact the industry and pave the way for future advancements in laser systems.