Marco Cortesi

Title: Marco Cortesi: Innovator in Energy-Sensitive Fast Neutron Detection

Introduction

Marco Cortesi is a distinguished inventor based in Verdellino, Italy. He has made significant contributions to the field of neutron detection technology. His innovative work focuses on developing advanced imaging detectors that enhance the detection of fast neutrons.

Latest Patents

Cortesi holds a patent for an "Energy-sensitive fast neutron imaging detector and method for energy-sensitive fast neutron detection." This groundbreaking invention features an energy-sensitive imaging detector that utilizes energy-selective radiator foil stacks to convert neutrons into recoil protons. The design includes gas-filled gaps between the foils, which are composed of two interconnected layers: a hydrogen-rich layer, such as polyethylene, for neutron-to-proton conversion, and a metal foil layer, like aluminum, which defines a proton energy cut-off and limits the proton emission angle. The energetic recoil protons release electrons in the surrounding gas, and an electric field efficiently drifts these electrons through the gaps. The electron detector employs position-sensitive readout technologies, such as Micro-Pattern Gaseous Detector technologies, to provide electron amplification in gas. The dedicated imaging data-acquisition system detects the drifted electrons, allowing for precise sensing of the original impinging neutrons.

Career Highlights

Cortesi is currently affiliated with the Paul Scherrer Institute, where he continues to advance research in neutron detection technologies. His work has garnered attention for its potential applications in various fields, including nuclear safety and medical imaging.

Collaborations

Throughout his career, Cortesi has collaborated with notable colleagues, including Volker Dagendorf and Horst-Michael Prasser. These partnerships have contributed to the development and refinement of his innovative technologies.

Conclusion

Marco Cortesi's contributions to energy-sensitive fast neutron detection exemplify the impact of innovative thinking in scientific research. His patented technology represents a significant advancement in the field, showcasing the potential for improved neutron detection methods.