Company Filing History:
Years Active: 2003
Title: The Innovative Contributions of C Theodore Tienvieri
Introduction
C Theodore Tienvieri is a notable inventor based in Rochester, NY, who has made significant contributions to optical technology. His work primarily focuses on lens systems that enhance image resolution and reduce optical aberrations. With one patent to his name, Tienvieri's innovations have the potential to impact various fields that rely on precise optical instruments.
Latest Patents
Tienvieri's patent, titled "Double mirror catadioptric objective lens system with three optical surface multifunction component," presents a groundbreaking design. This double mirror objective lens system incorporates a three optical surface refractor that utilizes a convex mirror to reflect incident light to a concave mirror. The light is then reflected back through the refractor toward a focal point, resulting in improved resolution images with low spherical aberration and minimal chromatic aberration. A variation of this invention includes an additional refractor that carries the concave mirror, forming a Mangin mirror. This variation further reduces aberrations across an increased wavelength range, showcasing Tienvieri's commitment to advancing optical technology.
Career Highlights
C Theodore Tienvieri is currently associated with Tropel Corporation, where he applies his expertise in optical systems. His work at Tropel Corporation has allowed him to collaborate with other talented professionals in the field, contributing to the development of innovative optical solutions.
Collaborations
One of Tienvieri's notable coworkers is James Edson Webb. Their collaboration exemplifies the synergy that can occur when skilled individuals work together in the pursuit of innovation.
Conclusion
C Theodore Tienvieri's contributions to optical technology through his innovative lens systems demonstrate his significant role as an inventor. His patent reflects a deep understanding of optical principles and a commitment to enhancing image quality in various applications.