Company Filing History:
Years Active: 1999
Title: Kurt Weingarten: Innovator in Solid-State Laser Technology
Introduction
Kurt Weingarten is a notable inventor based in Zurich, Switzerland. He has made significant contributions to the field of laser technology, particularly in the development of solid-state lasers. His innovative work has led to advancements that enhance the performance and efficiency of laser systems.
Latest Patents
Kurt Weingarten holds a patent for a mode-locked solid-state laser pumped by a non-diffraction-limited beam. This pulsed solid-state laser comprises an optical resonator and a solid-state laser medium placed inside the optical resonator. A saturable absorber, such as a semiconductor saturable absorber mirror device for passive mode locking, is integrated within the optical resonator. The pumping source excites the laser gain medium to emit electromagnetic radiation. Notably, the pumping source emits pump radiation in the form of a non-diffraction-limited focused pumping beam. Despite the low product of the stimulated emission cross section times the spontaneous fluorescence lifetime for the laser medium, the laser achieves a high output power of a few Watts. This innovation allows for solid-state lasers that are remarkably smaller and more cost-effective while maintaining performance comparable to existing lasers.
Career Highlights
Kurt Weingarten is associated with Time-Bandwidth Products AG, where he continues to push the boundaries of laser technology. His work has been instrumental in developing lasers that are not only efficient but also economically viable for various applications.
Collaborations
Kurt collaborates with Wolfgang Schusslbauer, contributing to the advancement of laser technologies through shared expertise and innovative ideas.
Conclusion
Kurt Weingarten's contributions to solid-state laser technology exemplify the impact of innovation in the field. His patent and ongoing work at Time-Bandwidth Products AG highlight the importance of advancements that enhance both performance and cost-effectiveness in laser systems.