CERN EP-DT Experimental Physics Department (EP) Detector Technologies (DT)

1. CERN EP-DTExperimental Physics Department(EP)Detector Technologies(DT) Burkhard Schmidt

2. EP Departmenthttp://ep-dep.web.cern.ch

3. Enter a New Era in Fundamental Science Start-up of the Large Hadron Collider (LHC), one of the largest and truly global scientific projects ever, is the most exciting turning point in particle physics. CMS LHCb ALICE ATLAS Study of proton and lead collisions at the TeV scale LHC tunnel: 27 km circumference Germany and CERN | May 2009

4. The LHC Detectors ATLAS 7000 ton l = 46m D = 22m LHCb is specialized on the study of particles containing b- and c- quarks ATLAS and CMS are General Purpose Detectors (GPD) for data-taking at high Luminosity. CMS 12500 ton l = 22m d = 15m ALICE Detector is optimized for the study of Heavy Ion physics

5. Particle Detectors undetected neutrinos... • Accelerators at CERN boost particles to high energies before they are made to collide inside detectors. • The detectors gather clues about the particles – including their speed, mass and charge – from which physicists can work out a particle's identity. • Modern particle detectors consist of layers of sub-detectors, each designed to look for particular properties, or specific types of particle. • Tracking devices reveal the path of a particle • Calorimeters stop, absorb and measure a particle’s energy • Particle-identification detectors use a range of techniques to pin down a particle's identity

6. Detector ATLAS Magnets Tracking Detectors Calorimeters Muon Chambers Beam

7. ATLAS Tracker • TRT (Straws-Gas) • 350 kchannels • 36 trackpoints • 𝜎 ~130 mm • SCT (Siliconstrips) • 6.2 Mchannels • 4 trackpoints • 𝜎 ~16 mm • Pixel (Siliconpixels) • 80 Mchannels • 3 trackpoints • 𝜎 ~10 mm

8. Silicon Detectors at LHC ALICE Pixel Detector LHCb VELO ATLAS Pixel Detector CMS Pixel Detector CMS Strip Tracker IB ATLAS SCT Barrel ALICE Strip Detector ALICE Detector

9. Systems What is a system? • Sensor • Readout electronics • Interconnections • Mechanical supports • Cooling, thermal aspects • Gas systems • Power supplies • Services: cables, pipes, fiber links… • Monitoring, sensors, alignment

10. Large Infrastructure for Particle Detectors • Design • Construction • Operation • Maintenance • R&D CO2 cooling station for tracking detectors Industrial Control Systems Gas Systems

11. Detector Technologies Group Mandate • Services • Infrastructure for experiments: • Gas systems • Detector cooling systems • Instrumentation and controls • Infrastructure for Detector R&D: • Thin film & glass Lab • Silicon facility • Wire-bonding & QART Lab • Micro-Pattern Technologies • Irradiation facilities • Specialized labs (optics, gluing…) • Scintillator production • Engineering office • R&D Projects • Radiation tolerant silicon detectors (RD-50) • Gaseous detectors (RD-51) • Scintillating fibre detectors • Micro-systems engineering • Joint Projects • M&O and Upgrades of the LHC experiments • AEgIS, CAST, CLOUD, NA62 • R&D for Linear Collider Detectors Joint Projects with CERN experimental teams to develop, construct, operate detectors. Set up for a defined amount of time and the scope of the collaboration is described in dedicated WPs Services are available for all experiments at CERN. They offer a coherent, ready-to-use deliverable, M&O support, advice and consultancy. R&D Projects on strategic fields that are of common interest for all the experiments. They provide a host lab environment for external partners. The mandate of the EP-DT group comprises development, construction, operation and maintenance of particle detectors for the experiments at CERN. The group also offers a range of services and infrastructure for experiments and detector R&D

12. DT Team

13. Resources Allocation • DT-hosted Generic R&D • Clusters of expertise (R&D Projects), equipment and infrastructure for all experiments (Services), often launch pads for Upgrade projects. • No WPs are established. Management GL and SL Safety roles • Services • Development and operation of infrastructures for experiments and detector R&D. • Client-driven and available for all experiments at CERN. • For M&O, WPs describe the DT deliverables, cost of materials and FSU, and DT resources. • DT resources are not accounted against a given experiment because they are considered common EP services. • Projects • Collaborations with CERN teams in experiments to build detectors, usually covering the full project cycle (R&D, prototyping, construction, commissioning, M&O). • WPs document describes the project, DT deliverables and resources. • DT resources allocated to projects are assigned for a given period of time to the experiment’s personnel budget code in APT. Gas, Cooling, Magnets, DSF, TFG, MPT, Irrad… Machining, Magnet support, Scintillator Lab, Composite Lab

14. CUT students @ EP-DT Trainees (53 students since 2011, 2-6 moths internship): Sedzicka, A. Szlachcic, A. Zmuda, B. Pilszyk, D. Cegielski, D. Dyngosz, D.Musial, D. Gargas, D. Patrzalek, D. Szewczyk, E. Pilorz, I. Rzepa, J. Staniszewska, J.Szymski, J.Walerianczyk, J. Wasikowski, K. Cichy, K. Kapusniak, K. Pietrulewicz, K. Przybylo, K. Rapacz, K. Rudek, K.Sliwa, K. Wojdyla, L. Banasik, L. Krzempek, M. Czerwinski, M. Gutt-Mostowy, M.Kalinowski, M.Mazur, M. Pochopien, M. Rzonca, M. Skakuj, M. Zabek, M. Zimny, N. Borek, P. Dziurdzia, P. Gach, P. Lizak, P. Okonski, P.Piorek, P.Skorbucha, P. Seweryn, P. Stachon, P.Kozil, P.Licha, R.Jarocki, T. Kucharski, T. Szwarc, M. Ostrega, T. Gwozdz, M. Panek, W. Byczynski, T. Nizegoda, A. Biernacki, P. Gorniak, S. Kurowski Trainees further careers at CERN 16 Technical Students 9 Fellows 7 COAS/PJAS via CUT and AGH 1 Staff

15. CUT students @ EP-DT

17. Matrix organization EP-DT Detector Technologies Contact Persons for Experiments and Projects Technology & Physics (DT-TP) Detector Development (DT-DD) Fluidic Systems (DT-FS) Engineering Facilities (DT-EF) Engineering Office (DT-EO) Detector Construction & Operations (DT-CO) Detector Interface (DT-DI) The FS section develops, maintain and operates gas and cooling systems for particle detectors. The service is available to all experiments at CERN. It offers a coherent, ready-to-use deliverable, M&O support, advice and consultancy. The EF section develops and maintains technology expertise and facilities for particle detector prototyping and contributes to small scale parts productions for CERN experiments. Facilities/shops are used to develop parts, prototypes, and conduct validation experiments in support of the group and projects. The DI section develops and supports large and medium scale control and DAQ systems for the infrastructure of CERN experiments and laboratory control systems. The DD section leads R&D projects in several detector technologies, and runs related detector R&D facilities open to all users. Facilities: Gas Lab, Silicon Lab, QART, BondLab, DSF, Irradiation Facilities. The TP section promotes and manages projects on detector construction, integration and operation. Pool of project leaders that plans and coordinates projects -established in collaboration with the experiments- across different functional areas. The CO section expertise is mechanics for particle detectors, including know-how in detector design, prototyping, production, detector assembly, integration and testing. It represents the technical backbone of the group intervening and supporting through various detector projects the construction and operation of CERN experiments. The EO section is in charge of mechanical design activities for CERN detector-related projects. Designers and engineers cover a wide range of disciplines in mechanical engineering, construction, and numerical simulation fields. Projects Services

18. Projects: LHC Experiments2016-2020 Support to Operation (mostly in technical stops, shutdowns) and Detector Upgrades For the upgrades, EP-DT partners with CERN teams (WP agreements)

19. Accelerating Science and Innovation