Location History:
- Zurich, CH (2002)
- Zürich, CH (2003 - 2006)
Company Filing History:
Years Active: 2002-2006
Title: Kurt J Weingarten: Innovator in Solid-State Laser Technology
Introduction
Kurt J Weingarten is a prominent inventor based in Zurich, Switzerland. He has made significant contributions to the field of solid-state laser technology, holding a total of 6 patents. His work focuses on developing innovative laser systems that are efficient, robust, and cost-effective.
Latest Patents
Weingarten's latest patents include a high-repetition-rate passively mode-locked solid-state laser. This laser is designed to emit a continuous-wave train of electromagnetic-radiation pulses, with a fundamental repetition rate exceeding 1 GHz. It operates without Q-switching instabilities, making it a reliable choice for various applications. The laser features an optical resonator and a solid-state laser gain element made of Nd:vanadate. Additionally, it incorporates a saturable absorber, preferably a semiconductor saturable absorber mirror (SESAM) device. Another notable patent is for a multiwavelength light source using an optical parametric oscillator. This apparatus generates at least three visible light beams of different output wavelengths, utilizing a passively mode-locked solid-state thin-disk laser.
Career Highlights
Throughout his career, Weingarten has worked with notable companies such as Gigatera AG and Time-Bandwidth Products AG. His expertise in laser technology has positioned him as a key figure in the industry, contributing to advancements that enhance optical probing and detection applications.
Collaborations
Weingarten has collaborated with esteemed colleagues, including Ursula Keller and Gabriel J Spuehler. These partnerships have fostered innovation and have been instrumental in the development of cutting-edge laser technologies.
Conclusion
Kurt J Weingarten's contributions to solid-state laser technology exemplify his commitment to innovation and excellence. His patents and collaborations continue to influence the field, paving the way for future advancements in laser applications.