QIS Sensors to Help NASA Missions

EurekAlert: NASA is awarding a team of researchers from Rochester Institute of Technology and Dartmouth College a grant to develop a detector capable of sensing and counting single photons for future astrophysics missions. The detector leverages Quanta Image Sensor (QIS) technology and measures every photon that strikes the image sensor. While other sensors have been developed to see single photons, the QIS has several advantages including the ability to operate at room temperature, resistance to radiation and the ability to run on low power.

"This will deliver critical technology to NASA, its partners and future instrument principal investigators," said Don Figer, director of RIT's Center for Detectors, the Future Photon Initiative and principal investigator for the grant. "The technology will have a significant impact for NASA space missions and ground-based facilities. Our detectors will provide several important benefits, including photon counting capability, large formats, relative immunity to radiation, low power dissipation, low noise radiation and pickup, lower mass and more robust electronics."

The project's co-investigators include RIT Assistant Professor Michael Zemcov and Dartmouth Professor Eric R. Fossum. Fossum has focused on inventing the QIS technology while RIT is leading application-specific development that leverages their expertise in astrophysics.

"We're excited for this collaboration with RIT to build upon Dartmouth's proof-of-concept QIS technology to research and develop instrument-grade sensors that can detect single photons in the dimmest possible light," Fossum said. "This has tremendous implications for astrophysics and enables NASA scientists to collect light from extremely distance objects."

The researchers will develop the technology over the next two years. The Center for Detectors will publish results, reports and data processing and analysis software on their website at http://ridl.cfd.rit.edu.