The DEPFET (Depleted Field Effect Transistor) detector-amplifier structure forms the basis of a variety of detectors being developed at the MPI Semiconductor Laboratory. These Detectors are foreseen to be used in astronomy and particle physics as well as other fields of science. The detector developments are described together with some intended applications. They comprise the X-ray astronomy missions XEUS and SIMBOL-X as well as the vertex detector of the planned Linear Collider ILC. All detectors are produced in the MPI Semiconductor Laboratory that has a complete silicon technology available
The new advancement in low-noise X-Ray detection paves the way to new space missions for deep space ...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...
The DEPFET detector-amplifier structure invented 1985 by J. Kemmer and G. Lutz possesses several uni...
Following previous work in particle physics, the MPI Semiconductor Laboratory has been founded with ...
The performance requirements of vertex detectors for future linear collider experiments is very chal...
To improve the signal to noise level, devices for optical and x-ray astronomy use techniques to supp...
The combined Detector-Amplifier structure DEPFET (Depleted P-channel FET) is a promising new buildin...
DEPFET pixel detectors are unique devices in terms of energy and spatial resolution because very low...
DEPFET Active Pixel Sensors (APS) have been introduced as focal plane detectors for X-ray astronomy ...
DEPFET Active Pixel Sensors (APS) have been introduced as focal plane detectors for X-ray astronomy ...
DEPFET detectors are silicon (Si) active pixel sensors designed and manufactured in the Max-Planck-I...
Large arrays of depleted field effect transistor (DEPFET) detector elements are one possible technol...
AbstractThe DEPFET Collaboration develops highly granular, ultra-thin pixel detectors for outstandin...
Two new DEPFET concepts are presented motivated by potential applications in adaptive optics and in ...
The new advancement in low-noise X-Ray detection paves the way to new space missions for deep space ...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...
The DEPFET detector-amplifier structure invented 1985 by J. Kemmer and G. Lutz possesses several uni...
Following previous work in particle physics, the MPI Semiconductor Laboratory has been founded with ...
The performance requirements of vertex detectors for future linear collider experiments is very chal...
To improve the signal to noise level, devices for optical and x-ray astronomy use techniques to supp...
The combined Detector-Amplifier structure DEPFET (Depleted P-channel FET) is a promising new buildin...
DEPFET pixel detectors are unique devices in terms of energy and spatial resolution because very low...
DEPFET Active Pixel Sensors (APS) have been introduced as focal plane detectors for X-ray astronomy ...
DEPFET Active Pixel Sensors (APS) have been introduced as focal plane detectors for X-ray astronomy ...
DEPFET detectors are silicon (Si) active pixel sensors designed and manufactured in the Max-Planck-I...
Large arrays of depleted field effect transistor (DEPFET) detector elements are one possible technol...
AbstractThe DEPFET Collaboration develops highly granular, ultra-thin pixel detectors for outstandin...
Two new DEPFET concepts are presented motivated by potential applications in adaptive optics and in ...
The new advancement in low-noise X-Ray detection paves the way to new space missions for deep space ...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...
The need of high quality spectroscopic semiconductor imaging detectors in X-ray astronomy was the pr...