Victor Perelygin
(JINR)
04/10/2017, 15:30
Facilities and advanced detector technologies
Plenary/section talk
The present CMS muon system operates three different detector types: in the barrel - drift tubes (DT) and resistive plate chambers (RPC), in the endcap - cathode strip chambers (CSC) and another set of RPCs. In view of the operating conditions at HL-LHC, it is vital to assess the detector performance for high luminosity. New irradiation tests planned to ensure that the muon detectors survive...
Mrs.
Martina Ressegotti
(University and INFN Pavia)
04/10/2017, 15:50
Facilities and advanced detector technologies
Plenary/section talk
The upgrades of the LHC planned in the next years yield an increase of the instantaneous luminosity up to 5x10^34 cm-2 s-1 after Long Shutdown 3; a value about five times higher than the nominal one for which the CMS experiment was designed. The resulting larger rate of interactions will produce a higher pileup environment that will challenge the trigger system in its original configuration,...
Mr.
Sergey Korpachev
(MEPhI)
04/10/2017, 16:10
Facilities and advanced detector technologies
Plenary/section talk
The CALICE collaboration is developing a new technological prototype of a highly granular hadron calorimeter for future collider experiments. The proposed baseline design of the active elements considers scintillator tiles with a silicon photomultiplier readout. The light yield and uniformity of response of new tiles from different producers were measured. The technology proposed for the ILD...
Mr.
Nikolay Karpushkin
(Institute for Nuclear Research of the Russian Academy of Sciences)
04/10/2017, 16:25
Facilities and advanced detector technologies
Plenary/section talk
The study of supermodule of the CBM Projectile Spectator Detector response at proton beam energy 2 – 5 GeV has been done at CERN T10 beam line at first half of September 2017.
The PSD supermodule is an array of 3x3 modules and is assembled from 9 modules with transverse dimensions of 20x20 cm2 and longitudinal dimension of 5.6 interaction lengths. These modules are constructed at INR for the...
Dr.
Grigory Feofilov
(Saint-Petersburg State University)
04/10/2017, 16:40
Facilities and advanced detector technologies
Plenary/section talk
Upgraded Inner Tracking System for ALICE at the LHC: Status and Plans
Grigory Feofilov (for the ALICE Collaboration)
Saint-Petersburg State University
ICPPA-2017
2-5 October 2017, MEPhI, Moscow
ALICE has demonstrated its excellent capabilities in measurements of pp, p-Pb and Pb-Pb collisions at various energies during all years of the LHC operation. In view of new long-term...
Mr.
Evgeny Kondratyuk
(IHEP, Protvino)
04/10/2017, 17:05
Facilities and advanced detector technologies
Plenary/section talk
Charge Particle Veto detector of the ALICE experiment at LHC will be presented. We present physics motivation of the detector, its construction and operation in physics runs with the ALICE. We will describe readout electronics and conditions for data taking. Special attention will focus on CPV automation via detector control system. We will describe different states of the detector and...
Denis Derkach
(National Research University - Higher School of Economics)
,
Mr.
Mikhail Hushchyn
(NRE Higher School of Economics, Moscow, Russia)
04/10/2017, 17:20
Facilities and advanced detector technologies
Plenary/section talk
The LHCb detector is a forward spectrometer optimised for the reconstruction of decays of charm and bottom hadrons produced in LHC proton-proton collisions. The need to process large amounts of data efficiently within the constraints of the data acquisition and offline computing resources pushes steadily toward using advanced data analysis approaches. The machine-learning solutions developed...
Mr.
Dmitry Rudik
(ITEP)
04/10/2017, 17:35
Facilities and advanced detector technologies
Plenary/section talk
Liquid Argon (LAr) is a well-known scintillator widely used for different experiments. It is also used as a working medium in the detector CENNS-10 which is one of the detectors within the COHERENT experiment. Wavelength of LAr scintillation is very low (128 nm) and wavelength shifters (WLS) are required to collect the scintillation light. Investigations of different WLS types and technologies...
Mr.
Ivan Bredikhin
(GammaTECH)
04/10/2017, 17:50
Facilities and advanced detector technologies
Plenary/section talk
Компания CAEN является одним из безусловных лидеров рынка цифровой электроники и является единственной компанией в мире, предоставляющей полный спектр высоковольтных и низковольтных источников питания, а также различных модулей сбора данных, соответствующих всем стандартам IEEE. Компания CAEN предоставляет современное оборудование для экспериментов и исследований в областях:
· Физики...