A double-layer silicon detector consisting of two 500micron-thick silicon PIN photodiodes with independent readouts was mounted in a vacuum chamber and tested with X-ray sources. The detector is sensitive from 1-30 keV with an effective area of 6 mm^2. The detector performs best at -35 C with an energy resolution of 220 eV (FWHM, full width at half maximum) at 5.9 keV, and is able to operate at room temperature, +25 C, with moderate resolution around 760 eV (FWHM). The response of the top layer sensor is highly uniform across the sensitive area. This large-format silicon detector is appropriate for future X-ray timing missions
Simulation results are presented that explore an innovative, new design for X-ray detection in the 2...
This paper reports on the demonstration of a high-rate energy measurement technique using a thin dep...
A b s t r a c t Originally designed as position sensitive detectors for particle tracking, silicon d...
An x-ray detector using a liquid-helium cooled large-area silicon PIN photodiode has been developed ...
Silicon detectors with lower material budget, ultrafast readout and radiation hardness are under dev...
In this paper we describe the development of a multichannel readout system for X-ray measurements us...
Many methods used to calculate x-ray flux are incapable of accounting for the high x-ray flux genera...
Multi-element silicon strip detectors, in conjunction with integrated circuit pulse-processing elect...
Silicon pixel detectors are beginning to be used in large particle physics experiments. The hybrid t...
Silicon photodiodes offer a number of advantages over conventional photocathode type soft x-ray dete...
Silicon pin photodiodes from different manufacturers were tested with synchrotron radiation and foun...
We are developing thick intrinsic silicon detectors for hard X-ray and gamma-ray detection. The goal...
For the European X-ray multi-mirror (XMM) satellite mission and the German X-ray satellite ABRIXAS, ...
The purpose of this project was to develop a compact, modular multi-channel x-ray detector with inte...
Silicon photodiodes offer a number of advantages over conventional photocathode type soft x-ray dete...
Simulation results are presented that explore an innovative, new design for X-ray detection in the 2...
This paper reports on the demonstration of a high-rate energy measurement technique using a thin dep...
A b s t r a c t Originally designed as position sensitive detectors for particle tracking, silicon d...
An x-ray detector using a liquid-helium cooled large-area silicon PIN photodiode has been developed ...
Silicon detectors with lower material budget, ultrafast readout and radiation hardness are under dev...
In this paper we describe the development of a multichannel readout system for X-ray measurements us...
Many methods used to calculate x-ray flux are incapable of accounting for the high x-ray flux genera...
Multi-element silicon strip detectors, in conjunction with integrated circuit pulse-processing elect...
Silicon pixel detectors are beginning to be used in large particle physics experiments. The hybrid t...
Silicon photodiodes offer a number of advantages over conventional photocathode type soft x-ray dete...
Silicon pin photodiodes from different manufacturers were tested with synchrotron radiation and foun...
We are developing thick intrinsic silicon detectors for hard X-ray and gamma-ray detection. The goal...
For the European X-ray multi-mirror (XMM) satellite mission and the German X-ray satellite ABRIXAS, ...
The purpose of this project was to develop a compact, modular multi-channel x-ray detector with inte...
Silicon photodiodes offer a number of advantages over conventional photocathode type soft x-ray dete...
Simulation results are presented that explore an innovative, new design for X-ray detection in the 2...
This paper reports on the demonstration of a high-rate energy measurement technique using a thin dep...
A b s t r a c t Originally designed as position sensitive detectors for particle tracking, silicon d...