I. V. Lysova scite author profile

I. V. Lysova

5Publications

66Citation Statements Received

83Citation Statements Given

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Chuvash State Pedagogical University, Institute for Scintillation Materials

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Construction and commissioning of CMS CE prototype silicon modules

Açar

Adamov²,

Adloff

et al. 2021

J. Inst.

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As part of its HL-LHC upgrade program, the CMS Collaboration is developing a High Granularity Calorimeter (CE) to replace the existing endcap calorimeters. The CE is a sampling calorimeter with unprecedented transverse and longitudinal readout for both electromagnetic (CE-E) and hadronic (CE-H) compartments. The calorimeter will be built with ∼30,000 hexagonal silicon modules. Prototype modules have been constructed with 6-inch hexagonal silicon sensors with cell areas of 1.1 cm 2 , and the SKIROC2-CMS readout ASIC. Beam tests of different sampling configurations were conducted with the prototype modules at DESY and CERN in 2017 and 2018. This paper describes the construction and commissioning of the CE calorimeter prototype, the silicon modules used in the construction, their basic performance, and the methods used for their calibration.

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The DAQ system of the 12,000 channel CMS high granularity calorimeter prototype

Açar¹,

Adamov²,

Adloff³

et al. 2021

J. Inst.

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Concomitant with this increase will be an increase in the number of interactions in each bunch crossing and a significant increase in the total ionising dose and fluence. One part of this upgrade is the replacement of the current endcap calorimeters with a high granularity sampling calorimeter equipped with silicon sensors, designed to manage the high collision rates [2]. As part of the development of this calorimeter, a series of beam tests have been conducted with different sampling configurations using prototype segmented silicon detectors. In the most recent of these tests, conducted in late 2018 at the CERN SPS, the performance of a prototype calorimeter equipped with ≈12, 000 channels of silicon sensors was studied with beams of high-energy electrons, pions and muons. This paper describes the custom-built scalable data acquisition system that was built with readily available FPGA mezzanines and low-cost Raspberry PI computers.

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Response of a CMS HGCAL silicon-pad electromagnetic calorimeter prototype to 20–300 GeV positrons

Açar¹,

Adamov²,

Adloff³

et al. 2022

J. Inst.

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The Compact Muon Solenoid collaboration is designing a new high-granularity endcap calorimeter, HGCAL, to be installed later this decade. As part of this development work, a prototype system was built, with an electromagnetic section consisting of 14 double-sided structures, providing 28 sampling layers. Each sampling layer has an hexagonal module, where a multipad large-area silicon sensor is glued between an electronics circuit board and a metal baseplate. The sensor pads of approximately 1.1 cm2 are wire-bonded to the circuit board and are readout by custom integrated circuits. The prototype was extensively tested with beams at CERN's Super Proton Synchrotron in 2018. Based on the data collected with beams of positrons, with energies ranging from 20 to 300 GeV, measurements of the energy resolution and linearity, the position and angular resolutions, and the shower shapes are presented and compared to a detailed Geant4 simulation.

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Synthesis and scintillating efficiencies of 2,5-diarylthiazoles with intramolecular hydrogen bond

Prezhdo

Lysova

Distanov

et al. 2004

Tetrahedron Letters

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4-hetarylidene-2-aryloxazol-5-ones

Krasovitskii

Yudashkin

Lysova

et al. 1979

Chem Heterocycl Compd

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I. V. Lysova

Construction and commissioning of CMS CE prototype silicon modules

The DAQ system of the 12,000 channel CMS high granularity calorimeter prototype

Response of a CMS HGCAL silicon-pad electromagnetic calorimeter prototype to 20–300 GeV positrons

Synthesis and scintillating efficiencies of 2,5-diarylthiazoles with intramolecular hydrogen bond

4-hetarylidene-2-aryloxazol-5-ones

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