Company Filing History:
Years Active: 1994
Title: **Innovative Contributions of Jay W. Hirsh in Holographic Technology**
Introduction
Jay W. Hirsh is a prominent inventor located in Los Angeles, California, recognized for his significant contributions to the field of optical technology. With one patent to his name, he has made strides in developing advanced instruments that enhance optical applications.
Latest Patents
Hirsh's sole patent, titled "High finesse holographic Fabry-Perot etalon and method of fabricating," outlines an innovative approach to creating a high finesse holographic Fabry-Perot etalon. This invention presents a method that achieves notably high finesse despite the presence of non-flat interfaces within the etalon media. The method utilizes a single-step recording technique that allows for the simultaneous recording of both holograms while maintaining full phase synchronization. This careful approach ensures that the holographic fringes remain flat, even amidst variations in the refractive indices of the different media involved.
Career Highlights
Throughout his career, Jay W. Hirsh has been associated with the Physical Optics Corporation, where his expertise in optical devices is greatly valued. His dedication to innovation within the company has contributed to advancements that push the boundaries of existing technologies.
Collaborations
Hirsh has worked alongside talented colleagues including Tomasz P. Jansson and Tin M. Aye, collaborating on various projects that focus on enhancing holographic technologies and optical systems. Their collective efforts reflect a commitment to fostering innovation in the field.
Conclusion
Jay W. Hirsh stands out as an influential inventor whose work has laid the groundwork for future developments in optical technology. His patent for the high finesse holographic Fabry-Perot etalon is a testament to his innovative spirit and dedication to enhancing the capabilities of optical systems. As he continues to contribute to the field, Hirsh's inventions remain pivotal in the advancement of optical technologies.