Company Filing History:
Years Active: 2011
Title: Innovations of Jonathan S. Ehrman in Thermal-Based Laser Processing
Introduction
Jonathan S. Ehrman is an accomplished inventor based in Sudbury, MA (US). He has made significant contributions to the field of laser processing, particularly in developing methods that enhance the performance of multi-material devices. His innovative approach focuses on maintaining the integrity of substrates while utilizing advanced laser technology.
Latest Patents
Jonathan S. Ehrman holds a patent for "Methods and systems for thermal-based laser processing a multi-material device." This patent describes a method and system for locally processing a predetermined microstructure formed on a substrate without causing undesirable changes in its electrical or physical characteristics. The method involves providing information based on a model of laser pulse interactions with the microstructure and substrate. By determining at least one characteristic of the laser pulse, a pulsed laser beam is generated and irradiated onto the microstructure. This innovative approach ensures that the processing occurs without compromising the substrate's integrity.
Career Highlights
Ehrman is associated with GSI Group Corporation, where he applies his expertise in laser technology. His work has been instrumental in advancing the capabilities of laser processing systems, making them more efficient and effective for various applications. With a focus on innovation, he continues to contribute to the field through his research and development efforts.
Collaborations
Some of Jonathan S. Ehrman's notable coworkers include James J. Cordingley and David M. Filgas. Their collaborative efforts have further enhanced the research and development initiatives at GSI Group Corporation.
Conclusion
Jonathan S. Ehrman's contributions to thermal-based laser processing exemplify the intersection of innovation and technology. His patent and work at GSI Group Corporation highlight his commitment to advancing the field and improving the functionality of multi-material devices.