Company Filing History:
Years Active: 2025
Title: Manuel Decker: Innovator in Diffractive Optical Elements
Introduction
Manuel Decker is a prominent inventor based in Jena, Germany. He has made significant contributions to the field of optical engineering, particularly in the development of diffractive optical elements. His innovative work has led to advancements that enhance the efficiency and functionality of optical systems.
Latest Patents
Manuel Decker holds a patent for a diffractive optical element, which includes a method for designing an efficiency-achromatized diffractive structure and a method for producing such an element. The invention focuses on a diffractive optical element characterized by a spatial variation in the refractive index. This structure consists of a sequence of adjacent sections that form a diffractive structure, with each section exhibiting a variation in the refractive index. The diffractive structure achieves a diffraction efficiency of at least 0.95 over a spectral range extending at least 300 nm. This remarkable efficiency is realized through a single-layer diffractive structure that optimizes the combination of at least two refractive indices and two Abbe numbers within each section. The variation in refractive index can be accomplished through doping, material mixing, or structuring into sub-wavelength ranges.
Career Highlights
Manuel Decker is associated with Carl Zeiss AG, a leading company in the field of optics and optoelectronics. His work at Zeiss has allowed him to collaborate with other experts in the field and contribute to cutting-edge optical technologies.
Collaborations
One of his notable collaborators is Daniel Werdehausen, with whom he has worked on various projects related to optical innovations.
Conclusion
Manuel Decker's contributions to the field of diffractive optical elements exemplify the importance of innovation in optical engineering. His patent reflects a significant advancement in achieving high diffraction efficiency, which can have wide-ranging applications in various optical systems.