Company Filing History:
Years Active: 2004
Title: Francesco Quochi: Innovator in Optical Technology
Introduction
Francesco Quochi is a notable inventor based in Quartu Sant'Elena, Italy. He has made significant contributions to the field of optical technology, particularly with his innovative designs and patents. His work focuses on creating advanced optical devices that enhance the generation of pulsed light.
Latest Patents
Francesco Quochi holds a patent for an "Optical device for generating pulsed light." This optical device includes a microstructured fiber that is pumped by an external pulsed-light source. In one embodiment, the microstructured fiber features two waist regions that function as a tunable attenuator and a wavelength shifter, respectively. The output wavelength of the optical device is selected by attenuating the pump light in the first waist region and then passing the light through the second waist region to shift the pump energy to a new spectral band. Notably, the invention can be configured with two or more microstructured fibers to generate multiple synchronized pulsed beams, each at a different characteristic wavelength. Certain embodiments of this invention provide an inexpensive, compact, and energy-efficient multi-wavelength synchronized pulsed-light source.
Career Highlights
Francesco Quochi is associated with Lucent Technologies Inc., where he has been able to apply his expertise in optical technology. His work has contributed to advancements in the field, showcasing his innovative approach to solving complex problems in light generation.
Collaborations
Francesco has collaborated with notable colleagues such as Mihaela Dinu and Charles Kerbage. These collaborations have further enriched his work and contributed to the development of cutting-edge optical technologies.
Conclusion
Francesco Quochi is a distinguished inventor whose work in optical devices has paved the way for advancements in pulsed light technology. His innovative patent reflects his commitment to enhancing the efficiency and effectiveness of optical systems.