Conveners
Solid State Detectors
- Frank Hartmann (IEKP Karlsruhe)
- Anthony Affolder (University of Liverpool)
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Mr Álvaro Dosil (Universidade de Santiago de Compostela)28/05/2015, 08:30S6 - Solid State DetectorsOralThe upgrade of the LHCb experiment, planned for 2018, will transform the experiment to a trigger-less system reading out the full detector at 40 MHz event rate. All data reduction algorithms will be executed in a high-level software farm. The upgraded detector will run at luminosities of 2 x 10^33 /cm^2/s and probe physics beyond the Standard Model in the heavy flavour sector with...Go to contribution page
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Dr Magnus Mager (CERN)28/05/2015, 08:50S6 - Solid State DetectorsOralA new Inner Tracking System based on seven concentric layers of Monolithic Active Pixel Sensors will be installed in the ALICE experiment during the second long shutdown of LHC in 2018-2019. It is based on 10m^2 of pixel sensors that will be fabricated using the 180nm CMOS Imaging process of TowerJazz. The ALPIDE design takes full advantage of a particular process feature, the deep p-well,...Go to contribution page
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Dr Paul Dervan (University of Liverpool)28/05/2015, 09:10S6 - Solid State DetectorsOralTo investigate the suitability of pixel sensors using the proven planar technology for the upgraded tracker, the ATLAS Planar Pixel Sensor R&D Project was established comprising 18 institutes and more than 80 scientists. Main areas of research are • performance assessment of planar pixel sensors at HL-LHC fluences to drive design and process improvements. • establishment of reliable...Go to contribution page
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Fabio Ravera (TO)28/05/2015, 09:30S6 - Solid State DetectorsOralDuring the high luminosity phase of the LHC (HL-LHC), the machine is expected to deliver an instantaneous luminosity of 5 x 10^34 cm^-2 s^-1. A total of 3000 fb^-1 of data is foreseen to be delivered, with the opening of new physics potential for the LHC experiments, but also new challenges from the point of view of both detector and electronics capabilities and radiation hardness. In order to...Go to contribution page
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Prof. Zheng Li (School of Nuclear Engineering and Technology, Xi’an Jiaotong University, Xi’an, Shaanxi, China)28/05/2015, 09:50S6 - Solid State DetectorsOralThe superconducting magnets of the Large Hadron Collider (LHC) located close (within a few tens of meters) to the Interaction Points of the proton beams are exposed to high-radiation fields due to the collision debris. The Beam Loss Monitoring (BLM) system measures the particle showers from beam losses. Due to the foreseen increase in the LHC luminosity, the discrimination between the...Go to contribution page
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Francesco Forti (PI), Ms Tomoko Morii (University of Tokyo Kavli IPMU (WPI))28/05/2015, 10:10S6 - Solid State DetectorsOralThe Belle-II experiment will exploit the very high luminosity planned at the SuperKEKB flavor factory at KEK to perform many precision measurements and to search for new physics beyond the Standard Model. The high precision tracking system is composed of a two-layer DEPFET pixel detector (PXD), a four-layer double-sided silicon strip detector (SVD) and a central drift chamber (DCH). To...Go to contribution page
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Dr Anthony Affolder (University of Liverpool), Dr Frank Hartmann (IEKP Karlsruhe)28/05/2015, 11:00Oral
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Dr Susanne Kuehn (Albert-Luwigs-University Freiburg)28/05/2015, 11:25S6 - Solid State DetectorsOralRD50 is a CERN R&D collaboration dedicated to the development of radiation hard semiconductor devices for application in high luminosity colliders. It is based on four pillars: Defect and Material Characterization; Detector Characterization; Development of New Structures; Full Detector Systems. Its ultimate goal is to develop radiation hard devices that can cope with a fluence of 2x106...Go to contribution page
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Dr Kavita Lalwani (University of Delhi, INDIA)28/05/2015, 11:45S6 - Solid State DetectorsOralSi detectors, in various configurations (strips & pixels etc), have been playing a key role in High Energy Physics (HEP) experiments owing to their excellent vertexing and high precision tracking information. In future HEP experiments like upgrade of Compact Muon Solenoid experiment at the Large Hadron Collider, CERN & the proposed International Linear Collider, the silicon tracking detectors...Go to contribution page
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Dr Toshinobu Miyoshi (KEK)28/05/2015, 12:05S6 - Solid State DetectorsOralWe are developing monolithic pixel detectors using 0.2 um FD-SOI pixel process. It aims at developing the next generation pixel detector for the future high energy physics experiment, space application, material science, medical application and so on. An SOI wafer is utilized for sensor and electronics. The top silicon is used for SOI-CMOS circuit, and the substrate is used for a radiation...Go to contribution page
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Prof. Norbert Wermes (University of Bonn)28/05/2015, 12:25S6 - Solid State DetectorsOralWhile so far monolithic pixel detectors have remained in the realm of comparatively low radiation application outside LHC, new developments exploiting high resistivity substrates with three or four well CMOS process options allow fairly large depletion depths and full CMOS circuitry in a monolithic structure. This opens up the possibility to target CMOS pixel detectors also for high...Go to contribution page
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Prof. Gian Franco Dalla Betta (University of Trento)28/05/2015, 12:45S6 - Solid State DetectorsOralWe report on the 3-year INFN ATLAS-CMS joint research activity in collaboration with FBK, started in 2014, aimed at the development of new pixel detectors for the LHC Phase-2 upgrades (aka HL-LHC). The latter will need the complete replacement of the ATLAS and CMS inner trackers with new ones fulfilling the requirements of a higher radiation fluence (2x10^16 neq/cm^2 , or equivalently 1 Grad,...Go to contribution page
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Lars Graber (II. Physikalisches Institut, Universität Göttingen)28/05/2015, 13:05S6 - Solid State DetectorsOralA novel detector using single-crystal chemical vapor deposited diamond and resistive electrodes in the bulk forming a 3D diamond detector is presented. The electrodes of the device were fabricated with laser assisted phase change of diamond into a combination of diamond like carbon, amorphous carbon and graphite. The connections to the electrode of the prototype device were made using a...Go to contribution page