Company Filing History:
Years Active: 2016
Title: The Innovations of Thomas Nappez
Introduction
Thomas Nappez is a notable inventor based in Valence, France. He has made significant contributions to the field of optical technology, particularly with his innovative patent related to optical signal emission systems. His work reflects a deep understanding of optical systems and their applications.
Latest Patents
Nappez holds a patent for an optical signal emission system. This optical system features a passive optical chip on its top surface, which includes a first wave guide and a laser diode positioned at the edge of the chip. The chip is designed with a reflecting structure that operates at the wavelength of the laser diode. Additionally, it incorporates a thin layer portion powered by the laser diode, which covers part of the first wave guide. The first wave guide input is connected to the laser diode, passing through the reflecting structure. The chip also contains a second wave guide on the top surface, along with a first coupler formed by two portions of the first wave guide that are not covered by the thin layer portion. These portions are situated on either side of the thin layer along the optical path. Furthermore, a second coupler is formed by two portions of the first and second wave guides, which are also not covered by the thin layer portion.
Career Highlights
Throughout his career, Thomas Nappez has worked with prominent organizations such as Thales and the Centre National de la Recherche Scientifique. His experience in these institutions has allowed him to develop and refine his expertise in optical technologies.
Collaborations
Nappez has collaborated with notable colleagues, including Philippe Rondeau and Jean-Pierre Schlotterbeck. These partnerships have contributed to the advancement of his projects and innovations.
Conclusion
Thomas Nappez is a distinguished inventor whose work in optical signal emission systems showcases his innovative spirit and technical expertise. His contributions to the field continue to influence advancements in optical technology.