Company Filing History:
Years Active: 2003
Title: **Innovations by Peter Jonathan Bennett: Pioneering Holey Optical Fibers**
Introduction
Peter Jonathan Bennett, an accomplished inventor based in Chelmsford, GB, has made significant strides in the field of optical fibers. With one patent to his name, Bennett's work focuses on enhancing the efficiency and performance of telecommunications through innovative fiber designs.
Latest Patents
Bennett's notable patent involves the development of holey optical fibers. This invention details the percentage fraction of fundamental mode power located in the cladding holes of various holey fibers, demonstrating substantial improvements over prior art. The patent outlines how, with his innovative designs, fibers can achieve 10-40% of the fundamental mode power residing in the holes. In contrast, traditional fibers often show less than 1% in this regard. The patent addresses critical parameters such as the wavelength of guided light and suggests a structure for the fibers that emphasizes smaller hole spacing and larger diameters to optimize performance.
Career Highlights
Currently, Peter Jonathan Bennett is affiliated with the University of Southampton, where he contributes his extensive knowledge and expertise in the field of optical fibers. His role has enabled him to be at the forefront of research and development within this innovative area, particularly regarding telecommunications advancements.
Collaborations
Bennett has collaborated with several esteemed colleagues, including Neil Gregory, Raphael Broderick, and Tanya Mary Monro. These partnerships have facilitated a productive research environment, leading to advancements and insights that further the understanding and application of holey optical fiber technology.
Conclusion
Peter Jonathan Bennett's contributions to the technology of optical fibers are notable, particularly through his patent on holey optical fibers, which presents significant innovations for the telecommunications industry. His work, in collaboration with distinguished colleagues, continues to influence the evolution of optical technology, paving the way for more efficient and powerful communication systems.