Company Filing History:
Years Active: 1998
Title: The Innovative Contributions of Daniel G. Marks in Gamma-Ray Detection Technology
Introduction
Daniel G. Marks is a pioneering inventor based in Tucson, Arizona, recognized for his significant contributions to the field of gamma-ray detection technology. His innovative approach has garnered attention in the scientific community, particularly through his patent related to signal processing methods for semiconductor sensors.
Latest Patents
Daniel G. Marks holds a patent for a "Signal processing method for gamma-ray semiconductor sensor." This invention involves a cadmium zinc telluride (CdZnTe) detector array, specifically designed with pixel electrodes that are indium-bump-bonded to a multiplexer readout circuit. The patent addresses the challenge of minimizing the effects of hole trapping while ensuring optimal energy deposition from interacting electrons within designated central pixels. Moreover, the innovative readout method focuses on discerning significant gamma-ray interaction events, contributing to the efficiency of the detection process.
Career Highlights
Marks is currently associated with the University of Arizona, where he has leveraged his expertise to advance the field of semiconductor sensors. His profound understanding of signal processing and detector technology has positioned him as a leader in the development of tools that enhance gamma-ray imaging capabilities.
Collaborations
Throughout his career, Daniel G. Marks has collaborated with esteemed colleagues, including Harrison H. Barrett and H. Bradford Barber. These partnerships have fostered a collaborative environment, promoting the exchange of ideas and enhancing research outcomes within the realm of gamma-ray detection.
Conclusion
Daniel G. Marks exemplifies innovation in the field of signal processing for gamma-ray detection. Through his patent and collaborative efforts at the University of Arizona, he continues to make strides in advancing technology that holds significant implications for various applications in science and industry. His contributions not only reflect his expertise but also his commitment to improving detection methods that could benefit numerous fields.