Event calendar file
9-10 July 2020
Mexico City
Mexico/General timezone
- e.delacruz.burelo@cinvestav.mx
Support
Poster session
Place
Location: Mexico City
Room: Virtual
Date:
9 Jul 16:15 - 17:45
Contribution List
Displaying 13
contributions
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13
The Compact Muon Solenoid (CMS), is one of the four experiments on the biggest and most powerful accelerator in the world, the Large Hadron Collider (LHC). The Resistive Plate Chambers (RPC) are fast, gas-filled muon detectors, mainly used to provide muon triggers to the entire CMS experiment, but also to complement the other muon detectors - the drift tubes in the central ”Barrel” part of the
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Presented by Mr. Osvaldo MIGUEL COLÍN
Resistive Plate Chambers (RPCs) are fast gaseous detectors with high spatial and temporal
resolution. Multigap Resistive Plate Chambers (MRPCs) were introduced later to improve the
time resolution and they have been used as time-of-flight (TOF) detectors both in HEP and in
medicine (PET). The basic idea of an RPC is the same as a parallel plate capacitor with the
novelty of the use of resisti
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Presented by Mr. Manuel Alejandro DEL RIO VIERA
Due to the high environmental impact of the gases used by the RPC Collaboration, of the CMS experiment of the CERN LHC, the search for possible replacements for them or a decrease in their concentrations, has led to new studies where the new alternatives are optimal, this requires the use of ecological gases, whose GWP indexes are low compared to the currently used mixture, in addition, to reach t
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Presented by Ms. Dalia Lucero RAMÍREZ GUADARRAMA
In this work we perform a global analysis of exclusice hadronic tau decays into one and two mesons using the low energy limit of the Standard Model Effective Field Theory considering operators up to dimension six and assuming left-handed neutrinos. All hadron form factors are constructed exploiting chiral symmetry, dispersion relations and lattice data. Following this EFT framework we have set bou
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Presented by Mr. Javier RENDON
Machine learning (ML) methodologies have gained remarkable popularity in the high energy physics (HEP) community in recent years. This has improved the achieved precision of HEP experimental results. This work presents the study of novel ML techniques which address the problem of classification within experimental data to discriminate physics interesting versus background events. Specifically, it
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Presented by Andres RAMIREZ MORALES
El estudio de plasma confinado ha sido un tema de investigación relevante desde principios del siglo pasado. Debido a la correlación entre las componentes del plasma es muy difícil obtener una visión de los fenómenos que se llevan a cabo por estas. Una metodología empleada para conocer acerca de estos fenómenos es el uso de simulaciones por computadora. Para esto se han utilizado distintos
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Presented by Mr. Víctor Manuel LIZÁRRAGA RUBIO
In LEP times, hadronic tau decays were the most precise input for the (leading-order) hadronic vacuum polarization piece (HVP,LO) of the muon anomalous magnetic moment ($a_\mu$). With the advent of Φ- and B-factories, $e^+e^−$ hadronic cross-section surpassed them, giving the most accurate input for this piece. However, since both data-driven determinations are subject to theoretical uncertaint
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Presented by Mr. Jesús MIRANDA
We consider the extension of the Standard Model with gauge symmetry SU(2)L⊗SU(2)R⊗U(1)Y′ and additional exotic fermions known as mirror fermions. A double seesaw approach
method is performed to fit the neutrino masses with normal hierarchy. We calculate the decay rates for heavy neutrino for different channels, and we find that their branching ratios are nearly equal for heavy neutrino mas
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Presented by Dr. Ricardo GAITAN
This paper presents a study of the lower bound of the presence of non-collective effects in proton-proton collisions at RHIC and LHC energies, within the framework clustering color sources model. The result is above the hadron gas limit, and we test the viability of the bound as a reference for differential studies in multiplicity for the production of identified particles.
Presented by Mr. Nestor Raul MANCILLA XINTO
The detection of GRB 180722B and GRB 190114C in sub-TeV gamma-rays has opened up a new window to probe for the emission mechanisms of high energy radiation from gamma-ray bursts Recently it is argued that the synchrotron and inverse Compton processes are responsible for the production of these high energy gamma-rays during the afterglow. Here, for the first time we demonstrate that the photohadro
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Presented by Mr. Carlos Eduardo LÓPEZ FORTÍN
In this poster, I share an introduction of QML, concepts and tools that
could be relevant for High Energy Physics in a phenomenological view.
I an interested in implementing some algorithms coming from Artificial Intelligence and Quantum Computing, an ideal language of programming and frameworks to analyze or reproduce some HEP process and its features. This project is going on and I hope to re
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Presented by Dr. Javier-Andres ORDUZ-DUCUARA
In an exciting era of ongoing and forthcoming experiments, the Dyson-Schwinger equations (DSEs) approach to QCD, is placed as a promising tool for hadron physics. The present talk sums up a collection of DSE predictions, regarding the pseudoscalar mesons: \gamma^* \gamma^* -> M transition form factors (TFFs), their contribution to the muon's anomalous magnetic moment (g-2), and recent predictions
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Presented by Khépani RAYA
In this poster we will review the standard computation of the box diagram in DREG
and through the aplication of the Loop-Tree Duality (LTD). We present the origin
of infrared and ultraviolet singularities in the framework of LTD.
Presented by Jesús Andrés AGUILAR QUIROZ
