Conveners
Triggering, Data Acquisition, Control Systems
- Oleg Strekalovsky (JINR)
Triggering, Data Acquisition, Control Systems
- Vladimir Karjavine (JINR)
Triggering, Data Acquisition, Control Systems
- There are no conveners in this block
Dr
Vito Palladino
(Imperial College London)
03/10/2019, 11:30
Triggering, Data Acquisition, Control Systems
Sectional
The high luminosity (HL) LHC will pose significant detector challenges for radiation tolerance and event pileup, especially for forward calorimetry, and this will provide a benchmark for future hadron colliders. The CMS experiment has chosen a novel high granularity calorimeter (HGCAL) for the forward region as part of its planned Phase 2 upgrade for the HL-LHC. Based largely on silicon...
Dr
Carlo Battilana
(INFN)
03/10/2019, 11:45
Triggering, Data Acquisition, Control Systems
Sectional
Drift Tubes (DT) equip the barrel region of the CMS muon spectrometer serving both as tracking and triggering detector. At High-Luminosity LHC (HL-LHC) they will be challenged to operate at background rates and withstand integrated doses well beyond the specifications for which they were initially designed. Longevity studies show that, though a certain degree of ageing is expected, a...
Mr
Francesco Romeo
(Vanderbilt University)
03/10/2019, 12:00
Triggering, Data Acquisition, Control Systems
Sectional
The Pixel Luminosity Telescope (PLT) is a dedicated system for luminosity measurement at the CMS experiment using silicon pixel sensors arranged into "telescopes", each consisting of three planes. It was installed in CMS at the beginning of 2015 and has been providing online and offline luminosity measurements throughout Run 2 of the LHC (2015-2018). The online bunch-by-bunch luminosity...
Mr
Leo Schlattauer
(Palacky University Olomouc, Czech Republic)
03/10/2019, 12:15
Detector & Nuclear Electronics
Sectional
This talk will provide information about particle detection chain for the new Dubna gas-filled recoil separator-II. Detector chamber itself consists of time-of-flight system and implantation double-sided silicon strip detector surrounded by six single side strip detectors (overall 224 channels). Main part of the talk will be focused on PXI based Alpha & Gamma spectrometer which will handle...
Mr
Victor Barashko
(University of Florida)
03/10/2019, 12:30
Triggering, Data Acquisition, Control Systems
Sectional
CMS Cathode Strip Chambers (CSC) are used for muon identification, measurements, and trigger in the forward direction. The system comprises 540 six-layer detectors with the overall sensitive area of about 6000 m^2 and has more than 500K electronics readout channels. Automated CSC Data Quality Monitoring system (CSC DQM) is an integral part of CSC commissioning and operation, as well as of the...
Mr
Nikolay Zernin
(JINR, FLNP, Department of Spectrometers Complex (DSC))
03/10/2019, 12:45
Triggering, Data Acquisition, Control Systems
Sectional
The High-resolution Fourier diffractometer (HRFD) is operated at the pulsed reactor IBR-2 of FLNP JINR allowing to carry out precision research of the crystal structure and microstructure of inorganic materials. The use of the fast Fourier chopper for intensity modulation of the primary neutron beam and the correlation method of diffraction data accumulation is a principal feature of the HRFD...
Mr
Alexey Altynov
(JINR)
03/10/2019, 13:00
Triggering, Data Acquisition, Control Systems
Sectional
The management and control system of the cold neutron moderator allows the engineering staff to monitor, in the process of its operation, the main parameters of the moderator, including the gas blower rotation speed, the consumption and temperature of helium, the vacuum in the jacket, and movement of pellets in the transport pipe. Today, complex upgrading of the cold neutron moderator at the...
Mr
Vasilii Shvetsov
(FLNP)
03/10/2019, 13:15
Triggering, Data Acquisition, Control Systems
Sectional
In the Laboratory of Neutron Physics a new high-performance data acquisition system (DAQ) is being developed in the framework of the project on creation of a high-aperture backscattering detector (BSD) for the high-resolution Fourier diffractometer HRFD.
The designed increase in the BSD aperture of 12.5 times together with an increase in the neutron flux on the sample by a factor of 2-3...
Mr
Ivan Bednyakov
(JINR)
03/10/2019, 15:00
Triggering, Data Acquisition, Control Systems
Sectional
The Precision Laser Inclinometer (PLI) represents new type of sensor that is able to measure the slope of a surface in an angular interval of angles (from 0.01 to 100 μrad) and in a frequency range of (10 μHz 1 Hz). The principal feature of the new inclinometer is the precision that can reach by last estimates 5 • 10−9 rad. The inclinometer is essentially a new kind of a two-coordinate...
Dr
Oleg Strekalovsky
(JINR FLNR)
03/10/2019, 15:15
Triggering, Data Acquisition, Control Systems
Sectional
The article describes the electronics for the time-of-flight two-arm fission fragments spectrometer COMETA-F. The time pick-off detector is comprised of thin electron conversion foil, electrostatic mirror and of two microchannel plates, supplied by Baspik, mounted in a chevron configuration. Mosaics of Si PiN diodes used to measure both energy and time-of-flight. The waveform of detected...
Mr
Dmitrii Monakhov
(JINR)
03/10/2019, 15:30
Triggering, Data Acquisition, Control Systems
Sectional
One of the promising directions in the development of robust control systems for complex physical facilities is the application of quantum computing for building intelligent controllers based on neural networks and genetic algorithms. The main advantage of the application of quantum technologies is the high speed of adaptation of the intelligent control system (ICS) to changing conditions of...
Mrs
Veronika Zabanova
(FLNR, JINR)
03/10/2019, 15:45
Triggering, Data Acquisition, Control Systems
Sectional
March 25, 2019 the experimental hall of the Superheavy Elements Factory (SHE) was opened at the FLNR JINR and its basic facility – the DC-280 cyclotron was launched. The control system software of DC-280 is based on NI LabVIEW platform with the Datalogging and Supervisory Control (DSC) module. It consists of many software programs that perform corresponding tasks: device drivers, alarms...
Mr
Dmitriy Maximov
(Budker Institute of Nuclear Physics)
03/10/2019, 16:00
Computing for Large Scale Facilities (LHC, FAIR, NICA, SKA, PIC, XFEL, ELI, etc.)
Sectional
ATLAS electron and photon triggers covering transverse energies from 5 GeV to several TeV are essential to record signals for a wide variety of physics: from Standard Model processes to searches for new phenomena in both proton-proton and heavy ion collisions. Main triggers used during Run 2 (2015-2018) for those physics studies were a single-electron trigger with ET threshold around 25 GeV...
Mr
Egor Zadeba
(National Research Nuclear University MEPhI (Moscow Engineering Physics Institute))
03/10/2019, 16:30
Triggering, Data Acquisition, Control Systems
Sectional
The Unique Scientific Facility NEVOD represents a large experimental complex including a number of setups for investigations of various components of cosmic rays in a wide range of energies and zenith angles. The main setup of the complex is the Cherenkov water detector (CWD) of 2000 m3 volume filled with a dense lattice of 91 quasi-spherical measuring modules. CWD can perform like a 4π...
Dr
Antonio Policicchio
(Sapienza Università di Roma & INFN Roma)
03/10/2019, 16:45
Triggering, Data Acquisition, Control Systems
Sectional
Events containing muons in the final state are an important signature for many analyses being carried out at the Large Hadron Collider (LHC), including both standard model measurements and searches for new physics. To be able to study such events, it is required to have an efficient and well-understood muon trigger. The ATLAS muon trigger consists of a hardware based system (Level 1), as well...
Dr
LIGANG XIA
(UNIVERSITY OF WARWICK)
03/10/2019, 17:00
Triggering, Data Acquisition, Control Systems
Sectional
The ATLAS experiment aims at recording about 1 kHz of physics collisions, starting with an LHC design bunch crossing rate of 40 MHz. To reduce the significant background rate while maintaining a high selection efficiency for rare physics events (such as beyond the Standard Model physics), a two-level trigger system is used.
Events are selected based on physics signatures such as the...
Rafal Bielski
(CERN)
03/10/2019, 17:15
Triggering, Data Acquisition, Control Systems
Sectional
Athena is the software framework used in the ATLAS experiment throughout the data processing path, from the software trigger system through offline event reconstruction to physics analysis. The shift from high-power single-core CPUs to multi-core systems in the computing market means that the throughput capabilities of the framework have become limited by the available memory per process. For...
Nicolina Ilic
(CERN)
03/10/2019, 17:30
Triggering, Data Acquisition, Control Systems
Sectional
After the current LHC shutdown (2019-2021), the ATLAS experiment will be required to operate in an increasingly harsh collision environment. To maintain physics performance, the ATLAS experiment will undergo a series of upgrades during the shutdown. A key goal of this upgrade is to improve the capacity and flexibility of the detector readout system. To this end, the Front-End Link eXchange...
Mr
Andrey Yudin
(JINR), Mr
Vladimir Khalin
(JINR)
03/10/2019, 17:45
Triggering, Data Acquisition, Control Systems
Sectional
The JINR Phasotron is the basic research facility of the Laboratory of Nuclear Problems of JINR. In 1985, a clinical complex of proton therapy of cancer patients was created on the basis of the facility. For the tasks of the complex, the 8th Phasotron tract is used. The tract consists of 15 elements: 2 rotary electromagnets and 13 electromagnetic lenses controlled by an automatic control...
Mr
Viktor Krylov
(Joint Institute for Nuclear Research (JINR))
03/10/2019, 18:00
Triggering, Data Acquisition, Control Systems
Sectional
There are many different ways to realize remote event viewer for detectors in physical experiments. Two different approaches for implementing of cross-platform 3D remote event display are discussed in details. Python, VTK Tools, Matplotlib and additional libraries were used to implement the event display application in 'Muon g-2' experiment (2017).
Modern Javascript, NodeJS, WebGL, ThreeJS...
