Takaki Hatsui
(RIKEN)
12/09/2014, 08:30
Detectors for FELS and other advanced Light Sources
Oral Paper
X-ray Free-Electron Lasers (XFELs) are now bringing new opportunity in coherent X-ray Science. Future X-ray sources such as high-repetition XFELs and ultimate storage ring (USR) light sources are anticipated to advance CXS further by delivering higher repetition rate and higher brilliance of coherent X-ray beam. In this talk, we first review the current detector status at the XFEL facility...
Dr
Jiaguo Zhang
(DESY)
12/09/2014, 09:10
Detectors for FELS and other advanced Light Sources
Oral Paper
Recent progress in active-edge technology of silicon sensors enables the development of large area tiled silicon detectors with small dead space between modules by utilizing edgeless sensors. Such technology has been proven in successful productions of ATLAS and Medipix-based silicon pixel sensors by a few foundries. However, the drawbacks of edgeless sensors are non-uniform charge collection...
Sven Wonsak
(University of Liverpool (GB))
12/09/2014, 09:30
Detectors for High Radiation and Extreme Environments
Oral Paper
The signal induced by minimum ionising particles in silicon strip detectors specially designed to investigate the process of charge multiplication has been studied by research groups within the CERN RD50 collaboration. In particular, various geometries of the implanted strips have been implemented on miniature (~1x1 cm$^2$) micro-strip sensors on a 6” wafer to observe the effect of these...
David Hall
(O)
12/09/2014, 09:50
Detectors for High Radiation and Extreme Environments
Oral Paper
Silicon has long been the material of choice for the production of detectors for many applications, from space astronomy to synchrotron research. When operating in space, or within a synchrotron or other accelerator, the detector can be subjected to a harsh radiation environment. The presence of these high energy electrons, protons and gamma-rays can lead to radiation-induced damage within...
Stefano Terzo
(Max-Planck-Institut fuer Physik (Werner-Heisenberg-Institut) (D)
12/09/2014, 10:10
Detectors for High Radiation and Extreme Environments
Oral Paper
Silicon pixel modules employing n-in-p planar sensors with an active thickness of 200 μm, produced at CiS, and 100-200 μm thin active/slim edge sensor devices, produced at VTT in Finland have been interconnected to ATLAS FE-I3 and FE-I4 read-out chips. The thin sensors are designed for high energy physics collider experiments to ensure radiation hardness at high fluences.
Moreover, the active...
