AUTHOR=Andricek Ladislav , Bähr Alexander , Lechner Peter , Ninkovic Jelena , Richter Rainer , Schopper Florian , Treis Johannes TITLE=DePFET—Recent Developments and Future Prospects JOURNAL=Frontiers in Physics VOLUME=10 YEAR=2022 URL=https://www.frontiersin.org/journals/physics/articles/10.3389/fphy.2022.896212 DOI=10.3389/fphy.2022.896212 ISSN=2296-424X ABSTRACT=
The DePFET is a sensor amplifier structure first proposed in 1987. In recent years, DeFPET based sensors have been deployed for particle tracking at Belle II experiment and been launched into space aboard the planetary science mission BepiColombo in its MIXS instrument. In the future DePFETs are proposed for the Wide Field Imager aboard the ATHENA satellite and developed for use as real-time imager for transmission electron microscopes These sensors have all been tailored to the needs of the respective application, providing high frame rates and accurate position resolution for tracking, Fano-limited energy resolution and position resolution matched to telescopes for X-ray spectroscopy or high frame rates and maximized dynamic range for applications on TEMs. In addition to this, several DePFET based concepts, implementing additional functionality on pixel level have been tested in recent years. Among these are the tailoring of the internal gates shape to implement a non-linear signal response and provide a larger dynamic range or a drastic increase of the DePFETs amplification. Furthermore, super pixels providing capabilities to reach sub electron noise and single electron resolution through repetitive readout, a fast electronic shutter at pixel level and the realization of multiple storage regions within one pixel have been tested. It was further demonstrated, that combinations of these features can also be realized. Over all, it is noted that advances in DePFET technology will provide sensors that are optimally tailored to the need of a specific application.