GEM Detector Technology & Development

14 Nov 2022, 13:00 → 18 Nov 2022, 21:50 Asia/Seoul

Inkyu Park (University of Seoul)

Monday, 14 November

13:00 → 14:00 Registration and Opening

14:00 → 15:00 Introduction to the particle detector world

In this chapter, we will introduce the theoretical concepts of the particle detection and how we can highlighting new physics phenomenon by using powerful detectors to identify infinitesimal objects and their properties.

Speaker: Dr Jeremie Merlin

JMERLIN_CMSGEM_LectureV2.pdf

15:00 → 16:00 MPGD (Micro-pattern Gas Dectector) technology

Gaseous detectors are by definition very light devices that can give a very high level of flexibility in term of geometry, composition and thus performance. For this reason, gaseous detectors are used in many HEP experiments with custom made designs and specific operating conditions. The Micro-Pattern Gaseous Detectors (MPGD), in particular, were developed in the continuity of the past gaseous technologies. They represent the latest generation of gaseous detectors, already used in several HEP experiments.

Speaker: Dr Jeremie Merlin

16:00 → 17:00 Introduction to the GEM detector

The GEM technology was introduced by F. Sauli in 1996 to pre-amplify signals in MSGCs. The most used GEM-based detector consists of a triple-GEM structure. It has became one of the most popular MPGD technologies among several world-wide experiments, and it is also the starting point of newer detection structures for future HEP and medical applications.

Speaker: Dr Jeremie Merlin

17:00 → 18:00 Discussion & Coffee break

18:00 → 20:00 School dinner

Tuesday, 15 November

13:00 → 14:00 Gathering, Coffee break

14:00 → 15:00 Discussion : CMS muon spectrometer - RPC, Drift Tube, CSC, GEM

Since the reconstruction of muons is a powerful tool to identify interesting decay modes, the muon spectrometer is one of the major assets of the CMS experiment. It is placed outside of the calorimeters and the magnet, embedded in the iron yokes. the CMS design includes three different technologies of gaseous detectors: the Drift Tubes (DT), the Cathode Strip Chambers (CSC) and the Resistive Plate Chambers (RPC) for a redundant and complementary trigger.

15:00 → 16:00 Discussion : Principles of the CMS GEM detector & its characteristics

The aim of the CMS GEM Collaboration is the development and the installation of triple-GEM detectors in the forward region of the CMS muon end-caps. The collaboration has worked on the design and the development of the GEM based detectors in the context of the CMS requirements and constraints.

16:00 → 17:00 Discussion : status of LHC and CMS upgrade plan

In order to increase its discovery potential, the LHC needs to be upgraded gradually, both the accelerator systems and the experiments. We can distinguish two major aspects of the upgrade: the increase of the center-of-mass energy in order to provide more energy during the collisions and reveal massive particles; the increase of the instantaneous luminosity to access very rare physics phenomena.

17:00 → 18:00 Discussion & Coffee break

18:00 → 20:00 School dinner

Wednesday, 16 November

15:00 → 16:00 Discussion : GE11 production, installation and operation & ME0 project: Future GEM detector installation plan

16:00 → 18:00 GEM Discharge

Electrical discharges is one of the main limitations of modern MPGD. Because of the microscopic nature of the GEM geometry, the presence of dust, contaminants or even the space charge context could lead to a local breakdown of the gas and sudden discharges. Such events can permanently damage the detector or the electronics. The understanding of the discharge phenomenon and the search for mitigation strategies is a critical part of the GEM detector development.

Speaker: Dr Jeremie Merlin

JMERLIN_Discharge_Lecture.pdf

18:00 → 20:00 School dinner

Thursday, 17 November

15:00 → 16:00 Discussion : Long-term operation and Aging processes

Several mechanisms can affect the long-term operation of particle detectors and lead to a gradual and permanent degradation of the detection performance. The mechanical deformations of the structure of the detector can induce gain fluctuations of the order of several per cents over the surface of the detector, resulting in drastic non-uniformity of the performance. Moreover, the physical and electrical properties of some materials may change after several years causing bad electrical contacts, gas leaks, oxidation ... These effects are multiple and can be avoided most of the time with an appropriate choice of materials, operating conditions and the validation of the detectors with a strict quality control.

16:00 → 18:00 GEM Crosstalk

The sharing of the readout signals over several readout strip is a key parameter for the proper reconstruction of physics events in the detector. However, in some cases, signals can be wrongly propagating to multiple readout sectors because of a parasitic effect called crosstalk. The understanding and the mitigation of the crosstalk issue is particularly important to prevent the generation of corrupted events and fake measurements.

Speaker: Dr Jeremie Merlin

JMerlin_Crosstalk_Lecture.pdf

18:00 → 20:00 School banquet

Friday, 18 November

13:00 → 14:00 Gathering, Coffee break

14:00 → 15:00 Discussion : The future of MPGDs in HEP

15:00 → 16:00 Discussion : LHC schedule and Future detector upgrade plan

16:00 → 17:00 Discussion : School summary & Conclusion

17:00 → 18:00 School closing