Development of the DEPFET Sensor With Signal Compression: A Large Format X-Ray Imager With Mega-Frame Readout Capability for the European XFEL

Abstract: We present the development of the DSSC instrument: an ultra-high speed detector system for the new European XFEL in Hamburg. The DSSC will be able to record X-ray images with a maximum frame rate of 4.5 MHz. The system is based on a silicon pixel sensor with a DEPFET as a central amplifier structure and has detection efficiency close to 100% for X-rays from 0.5 keV up to 10 keV. The sensor will have a size of approximately 210 210 mm composed of 1024 1024 pixels with hexagonal shape. Two hundred fifty six mixe… Show more

“…Here. the offset has been calibrated such that a zero signal (no incident photon) is centered on bin 4. consequently the signals from I. been set to a value of 50 electrons ENC (equivalent noise charge), as expected for operation of the DSSC at 4.5 MHz read-out speed [11]. For simplicity, an ideal 8 bit ADC (i.e.…”

“…Conversely, it is possible to maximize dynamic range at the expense of reduced photon counting resolution. The flexibility in DSSC operation is explained in detail in [11].…”

“…The DSSC design goal is to achieve at the same time single photon detection and high dynamic range, both for photon energies down to 0.5 ke V and read-out speeds up to 4.5 MHz [10], [11]. To realize this design goal, an accurate calibration of multiple DSSC properties is required, including quantum efficiency, spectral response, and charge sharing among neighbouring pixels.…”

Strategy for calibrating the non-linear gain of the DSSC detector for the European XFEL

“…Here. the offset has been calibrated such that a zero signal (no incident photon) is centered on bin 4. consequently the signals from I. been set to a value of 50 electrons ENC (equivalent noise charge), as expected for operation of the DSSC at 4.5 MHz read-out speed [11]. For simplicity, an ideal 8 bit ADC (i.e.…”

“…Conversely, it is possible to maximize dynamic range at the expense of reduced photon counting resolution. The flexibility in DSSC operation is explained in detail in [11].…”

“…The DSSC design goal is to achieve at the same time single photon detection and high dynamic range, both for photon energies down to 0.5 ke V and read-out speeds up to 4.5 MHz [10], [11]. To realize this design goal, an accurate calibration of multiple DSSC properties is required, including quantum efficiency, spectral response, and charge sharing among neighbouring pixels.…”

Strategy for calibrating the non-linear gain of the DSSC detector for the European XFEL

“…The DSSC develoment status is summarized in [8], [9]. As described in detail in [7], the DSSC is based on the integrated detector/amplifier structure DEPFET (Depleted P channel Field Effect Transis tor).…”

“…The DSSC design goal is to achieve at the same time single photon detection and high dynamic range, both for photon energies down to 0.5 keY and read-out speeds up to 4.5 MHz [8], [9]. To realize this design goal, an accurate calibration of multiple DSSC properties is required.…”

Calibration of the non-linear system response of a prototype set-up of the DSSC detector for the European XFEL

Integrating Hybrid Area Detectors for Storage Ring and Free-Electron Laser Applications