N. Vanegas scite author profile

N. Vanegas

5Publications

64Citation Statements Received

40Citation Statements Given

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University of Antioquia, Panjab University

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Layout and assembly technique of the GEM chambers for the upgrade of the CMS first muon endcap station

Abbaneo

Abbas

Abbrescia

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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Triple-GEM detector technology was recently selected by CMS for a part of the upgrade of its forward muon detector system as GEM detectors provide a stable operation in the high radiation environment expected during the future High-Luminosity phase of the Large Hadron Collider (HL-LHC). In a first step, GEM chambers (detectors) will be installed in the innermost muon endcap station in the pseudo-rapidity region, mainly to control level-1 muon trigger rates after the second LHC Long Shutdown. These new chambers will add redundancy to the muon system in the-region where the background rates are high, and the bending of the muon trajectories due to the CMS magnetic field is small. A novel construction technique for such chambers has been developed in such a way where foils are mounted onto a single stack and then uniformly stretched mechanically, avoiding the use of spacers and glue inside the active gas volume. We describe the layout, the stretching mechanism and the overall assembly technique of such GEM chambers.

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Triple-GEM discharge probability studies at CHARM: simulations and experimental results

et al. 2020

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Detector Control System for the GE1/1 slice test

Abbas¹,

Abbrescia²,

Abdalla³

et al. 2020

J. Inst.

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JINST 15 P05023A : Gas Electron Multiplier (GEM) technology, in particular triple-GEM, was selected for the upgrade of the CMS endcap muon system following several years of intense effort on R&D. The triple-GEM chambers (GE1/1) are being installed at station 1 during the second long shutdown with the goal of reducing the Level-1 muon trigger rate and improving the tracking performance in the harsh radiation environment foreseen in the future LHC operation [2]. A first installation of a demonstrator system started at the beginning of 2017: 10 triple-GEM detectors were installed in the CMS muon system with the aim of gaining operational experience and demonstrating the integration of the GE1/1 system into the trigger. In this context, a dedicated Detector Control System (DCS) has been developed, to control and monitor the detectors installed and integrating them into the CMS operation. This paper presents the slice test DCS, describing in detail the different parts of the system and their implementation.

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Quality control of mass-produced GEM detectors for the CMS GE1/1 muon upgrade

Abbas

Abbrescia

Abdalla

et al. 2022

Nuclear Instruments and Methods in Physics Research Section A:

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Two-particle azimuthal correlations in γp interactions using pPb collisions at sNN=8.16TeV
Tumasyan¹,
Adam²,
Bergauer³
et al. 2023
Physics Letters B
3
1
6
0
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N. Vanegas

Layout and assembly technique of the GEM chambers for the upgrade of the CMS first muon endcap station

Triple-GEM discharge probability studies at CHARM: simulations and experimental results

Detector Control System for the GE1/1 slice test

Quality control of mass-produced GEM detectors for the CMS GE1/1 muon upgrade

Two-particle azimuthal correlations in γp interactions using pPb collisions at sNN=8.16TeV
Tumasyan¹,
Adam²,
Bergauer³
et al. 2023
Physics Letters B
3
1
6
0
View full text Add to dashboard Cite

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N. Vanegas

Layout and assembly technique of the GEM chambers for the upgrade of the CMS first muon endcap station

Triple-GEM discharge probability studies at CHARM: simulations and experimental results

Detector Control System for the GE1/1 slice test

Quality control of mass-produced GEM detectors for the CMS GE1/1 muon upgrade

Two-particle azimuthal correlations in γp interactions using pPb collisions at sNN=8.16TeVTumasyan1, Adam2, Bergauer3 et al. 2023Physics Letters B3160View full textAdd to dashboardCite

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Two-particle azimuthal correlations in γp interactions using pPb collisions at sNN=8.16TeV
Tumasyan¹,
Adam²,
Bergauer³
et al. 2023
Physics Letters B
3
1
6
0
View full text Add to dashboard Cite