1. Development of novel Silicon detectors for next generation nuclear physics experiments (SIDET) O. Kiselev University of Mainz JRA21/JRA22

2. Integrated  E – E detectors New technological process – Quasi-Selective Epitaxy  E-E scatter plots obtained after irradiation by heavy ions and alpha particles Novel double-sided monolithic  E-E detector Potential applications – GANIL, LNL Legnaro, LNS Catania, GSI

3. Membrane-like  E detectors Anodic dissolution of large area n – n+ epitaxial oxidated structures Potential applications – GANIL, LNL Legnaro, LNS Catania, GSI Very thin strip detectors produced by new technology - Planar Process Partially Performed on Thin Silicon Membrane (PPPP process) Passivated 52 µm thick transmission  E strip detector

4. Sub-segmented strip detectors 2D position sensitivity on one side (like pixel detectors) Same number and type of readout channels as strip detectors 30 - 50 µm position resolution is possible Large pads on back side for timing/trigger Thin dead layer on front side – low energy threshold Spectroscopy Potential applications – any nuclear physics experiment, medicine, safety Absolutely novel technique!

5. Thick Si calorimeters Very good energy resolution High efficiency Low noise Thick (7-10 mm) Li drifted Si detectors (SiLi)  Very expensive  Very long and complicated production process  Almost no producers in the world Thick (≥3 mm) Si PIN detectors Very good energy resolution High efficiency Low noise Simple and fast production Any active area possible Low price  Need an R&D on voltage termination at the detector periphery  Careful choice of the Si wafers Potential applications – GANIL, LNL Legnaro, LNS Catania, GSI

6.  Particle and ion ID  Spectroscopy   Position measurement  Self-triggering, TOF measurement Integrated  E-E detector Summary of JRA activity Membrane-like strip detector Sub-segmented strip detector Thick Si calorimeters Merging potential with some other JRAs – dialog is going on Substantial improvement  Full advanced telescope for charged particle detection

7. Institute of Electronic Materials Technology and Uni Warsaw; CCLRC Daresbury Laboratory; GSI Darmstadt, University of Mainz, Helsinki Institute of Technology; University of Huelva; CEA Saclay, GANIL, Caen; Mid-Sweden University, Uppsala University; INFN LNL, Legnaro, INFN LNS, Catania; LPSC Grenoble, France; associated partners PTI, St. Petersburg; RIMST, Zelenograd; BNL, Brookhaven Substantial support in many institutes will be available Partners: