Company Filing History:
Years Active: 2021
Title: Inventor Laurin Ginner: Pioneering Optical Imaging Technology
Introduction
Laurin Ginner, an innovative inventor based in Vienna, Austria, has made significant strides in the field of optical imaging technology. With a focus on advancements in optical coherence tomography systems, Ginner has secured a patent that enhances the functionality and efficiency of imaging devices.
Latest Patents
Ginner holds a notable patent for a "Source module and optical system for line-field imaging." This invention pertains to a source module designed for optical coherence tomography systems. The patent describes a source capable of emitting a divergent output beam with either a circular or elliptical cross-section. The sophisticated design includes collimation optics that convert the divergent output into a non-divergent, collimated beam, allowing for improved imaging capabilities. Through the use of a cylindrical lens, the technology creates a line focus along the major axis of the elliptical collimated beam, which is crucial for high-resolution imaging.
Career Highlights
Ginner has been associated with Exalos AG, a company known for its innovative solutions in optical technologies. His work has contributed to the enhanced performance of imaging systems, thereby benefiting various fields such as medical diagnostics and research. His expertise in optical systems positions him as a valuable contributor to ongoing advancements in this technology.
Collaborations
Throughout his career, Laurin Ginner has collaborated with esteemed colleagues, including Rainer Leitgeb and Marcus Pierre Dülk. These collaborations have enriched his work and have led to the development of groundbreaking technologies within the field of optical imaging.
Conclusion
Laurin Ginner stands out as an influential inventor whose contributions to optical imaging technology are noteworthy. His patent for a source module and optical system reflects his commitment to innovation and excellence. As part of Exalos AG, Ginner continues to push the boundaries of what is possible in optical coherence tomography, paving the way for future advancements in imaging technology.