Company Filing History:
Years Active: 2006
Title: Thomas Schröeder: Innovator in Tunable Laser Technology
Introduction
Thomas Schröeder is a notable inventor based in Göttingen, Germany. He has made significant contributions to the field of laser technology, particularly with his innovative designs that enhance the performance of tunable lasers. His work is characterized by a focus on precision and efficiency, which has implications for various applications in science and industry.
Latest Patents
One of Thomas Schröeder's key patents is for a "Tunable laser with stabilized grating." This invention features a line-narrowing module for a laser that includes a prism beam expander and a grating, which is preferably attached to a heat sink. The design incorporates a pressure-controlled enclosure filled with an inert gas that seals the grating and other elements of the line-narrowing module. The pressure within this enclosure is adjustable, allowing for tuning of the laser's wavelength. This innovative approach can utilize a pump or an overpressure flow to control the inert gas flow. Additionally, the design allows for the possibility of a rotatable prism or etalon for further tuning capabilities.
Career Highlights
Thomas Schröeder is currently associated with Lambda Physik AG, a company known for its advancements in laser technology. His work at Lambda Physik AG has positioned him as a key player in the development of cutting-edge laser systems. With a patent portfolio that includes 1 patent, he continues to push the boundaries of what is possible in laser technology.
Collaborations
Throughout his career, Thomas has collaborated with esteemed colleagues such as Dirk Basting and Wolfgang Zschocke. These partnerships have fostered an environment of innovation and have contributed to the successful development of advanced laser technologies.
Conclusion
In summary, Thomas Schröeder is a prominent inventor whose work in tunable laser technology has made a significant impact in the field. His innovative designs and collaborations continue to drive advancements in laser applications.