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IFDEPS presentations
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Session 1 - IFDEPS Opening
- Motivation and goals of IFDEPS – Takaki Hatsui (IFDEPS Programme Organization)
- Opening talk – Detection: from the dark ages to the X-ray detectors for future SR and FEL photon sources – Michael Krisch (ESRF, France)
Session 2 - Update on development activities at photon sources
- ALBA, Spain (Oscar Matilla)
- ALS, US (Peter Denes)
- APS, US (Antonino Miceli)
- CLS, Canada (Tom Regier)
- DESY, Germany (Heinz Graafsma)
- DLS, UK (Nicola Tartoni)
- ELETTRA, Italy (Ralf Menk)
- ESRF, France (Thierry Martin)
- European XFEL, Germany (Markus Kuster)
- LCLS, US (Jana Thayer)
- LNLS, Brazil (Jean Marie Polli)
- NSLS-II, US (Peter Siddons)
- NSRRC, Taiwan (Yu-Shan Huang)
- PSI, Switzerland (Bernd Schmitt)
- SACLA, Japan (Takaki Hatsui)
- SOLEIL, France (Fabiene Orsini)
- SSRF, China (Fei Song)
Session 3 - Semiconductor sensors for X-ray spectroscopy
- Rainer Richter (MPG HLL, Germany) – Sensor ideas for photon science detectors developed at the MPG Semiconductor Lab
- Andrea Castoldi (Politecnico de Milano, Italy) – The path towards germanium drift detectors
- Paul Sellin (U. Surrey, UK) – Spectroscopic performance of high-Z sensor materials
Session 4 - Readout architectures for high count rate energy dispersive detection systems
- Carlo Fiorini (Politecnico de Milano, Italy) – Ultimate throughput and energy resolution of analog pulse processing front-ends
- Paul O'Connor (BNL, US) – Power-aware design of highly integrated systems
- Paul Scoullar (Southern Innovation, Australia) – Advanced pulse processing techniques for synchrotron and other high rate applications
Session 5 - Advanced multielement and position sensitive energy dispersive detectors
- JohannesTreis (MPG HLL, Germany) – Status, prospects and challenges of state-of-the-art detector system integration
- Peter Siddons (BNL, US) – The Maia detector system: a new way to do scanning probe fluorescence imaging
- Abdul Rumaiz (BNL, US) – Multi-element germanium detectors for synchrotron applications
- Graham Dennis (DLS, UK) – Advanced digital pulse processing applied to monolithic segmented detectors for spectroscopy
- Matthew Veale (STFC, UK) – High Energy X-ray Imaging Technology (HEXITEC): development of a spectroscopic X-ray imaging camera
Session 6 - Detection technologies for high resolution spectroscopy
- Douglas Bennett (NIST, US) – Current and future capabilities of transition-edge sensor microcalorimeters for Xray beamline science
- Masataka Ohkubo (AIST, Japan) – Superconductor Tunnel Junction (STJ) soft X-ray detectors for synchrotron radiation facilities
- Andreas Fleischmann (U. Heidelberg, Germany) – Magnetic micro-calorimeters for atomic and particle physics
- Simo Huotari (U. Helsinki, Finland) – Wavelenght dispersive spectrometers
Session 7 - First operation experiences with new detectors
- Sang Jun Lee (SSRL/SLAC, US) – The first two years of transition-edge sensor (TES) spectrometer at SSRL
- Matthew Hart (STFC, UK) – The Large Pixel Detector for the European XFEL: overview of the system and experience of operation at the FXE beam line
- Jolanta Sztuk-Dambietz (EU-XFEL, Germany) – 1 Mpix Adaptive Gain Integrating Pixel Detector (AGIPD) for EuropeanXFEL: installation, commissioning and first user operation at SPB/SFX instrument
- Aldo Mozzanica (PSI, Switzerland) – Status of the JUNGFRAU project: detector design and result from the SwissFEL pilot experiment phase
Session 8 - Overview of DAQ general strategies at large facilities
- Marcus Kuster (Eu-XFEL, Germany) – Detector calibration and data acquisition environment at the European XFEL
- Jana Thayer (SLAC, US) – Building a data system for LCLS-II
- Takaki Hatsui (RIKEN SPring-8, Japan) – DAQ system at SACLA and future plan for SPring-8-II
- Pablo Fajardo, (ESRF, France) – Current and planned technical solutions at ESRF for high throughput data acquisition and management
Session 9 - Technologies for high-throughput data acquisition
- Tomasz Hemperek (U. Bonn, Germany) – High bandwidth data transfer in and off-chip for HEP: modeling, design and verification
- Sebastian Dittmeier (U. Heidelberg, Germany) – The Mu3e data acquisition system: handling Terabits per second
- Emilio Meschi (CERN, Switzerland) – Modern DAQ architectures for HEP experiments: intelligent detectors and smart data reduction in the era of Big Data