-
Mohamed Gouighri (Faculty of Sciences, Ibn-Tofail University, Kenitra), Yahya Tayalati (UM5)23/10/2023, 09:00officials
-
23/10/2023, 09:10officials
-
23/10/2023, 09:15officials
-
23/10/2023, 09:20officials
-
23/10/2023, 09:25officials
-
23/10/2023, 09:30officials
-
Rachid Mazini (Academia Sinica, Taiwan)23/10/2023, 11:21Oral Presentation
-
Daniel Lewis23/10/2023, 11:40
The Standard Model of particles describes the fundamental constituents of matter and their interactions. Its predictions are probed in measurements at the LHC. In this talk, recent measurements by the ATLAS experiment are presented. They range from measurements of multijet and -photon production, high precision measurements using single W or Z bosons to measurements of multiboson production....
Go to contribution page -
Riccardo Bellan (Università degli Studi di Torino and INFN)23/10/2023, 12:11
The talk will cover the recent results on Standard Model measurements made by the CMS Collaboration, with particular emphasis on the Electroweak Sector of the theory.
Go to contribution page -
Charles M. Grant23/10/2023, 12:36
The ATLAS experiment has performed extensive searches for rare Standard Model processes involving top quarks. In this contribution two recent highlights of this programme are presented. The top-quark pair production in association with a W boson is a difficult process to calculate and model and is one of the leading sources of same-sign and multi-lepton events. To improve our understanding of...
Go to contribution page -
Saad El Farkh (University Ibn Tofaïl - Kénitra (Morocco))23/10/2023, 12:51
An overview of recent ATLAS jets studies in proton-proton collisions, focusing on key aspects. We explore multijet event simulations at 13 TeV and in-depth investigations of event shapes, including Transverse Energy-Energy Correlations (TEEC) and its azimuthal asymmetry (ATEEC). We also extract the strong coupling constant via transverse energy-energy correlations. To probe QCD radiation, we...
Go to contribution page -
David Keitel (Universitat de les Illes Balears)23/10/2023, 15:06
The gravitational-wave window onto the Universe has been opened with the first detection of a binary black hole in 2015. Since then, the LIGO-Virgo-KAGRA Collaboration has published 90 probable detections from three complete observing runs of the advanced-generation laser-interferometric detectors. These have enabled many new insights into the astrophysics of compact objects and the...
Go to contribution page -
Ornella Juliana Piccinni (IFAE Barcelona)23/10/2023, 15:31
The groundbreaking detection of gravitational waves generated by compact binary mergers ignited the birth of gravitational wave astronomy. In less than a decade, the Earth-based network of advanced interferometers, LIGO, Virgo, and KAGRA, has transformed various scientific fields, from astrophysics and cosmology to nuclear and fundamental physics, reshaping our understanding of the...
Go to contribution page -
Dr Liu Siming (Technology, Southwest Jiaotong University)23/10/2023, 15:44
The LHAASO collaboration has more than 280 members from 32 institutes in 5 countries. The commission of LHAASO in 2021 opened the epoch of ultra-high-energy (UHE) gamma-ray astronomy and paved the way to address the origin of cosmic rays up to hundreds of PeV. Located at Daocheng, Sichuan, on the eastern edge of the Tibetan plateau with an elevation of 4410 meters above the sea level (Figure...
Go to contribution page -
Jamal KHALLOUFI (LPTHE, Physics Department, Faculty of Sciences, Ibn Zohr University, Agadir, Morocco)23/10/2023, 15:59
The thermal phase transitions of the AdS black holes are controlled through a stochastic process and are a function of an order parameter. The dynamics during its phase transitions is determined through the fluctuating macroscopic variables, we recall the Fokker-Planck equation to study the evolution of such a process in the Born-Infeld-AdS background. Moreover, we discuss about the critical...
Go to contribution page -
Prof. Alexander Studenikin (Moscow State University)23/10/2023, 16:25
We start with a general introduction to the problem of neutrino electromagnetic properties [1]. Then we consider the most stringent experimental constraints on neutrino magnetic µν and electric dν moments, millicharge qν, charge radii <rν2> and anapole aν moments from the terrestrial experiments (the bounds from MUNU, TEXONO, GEMMA, Super-Kamiokande, Borexino, COHERENT, XENON1T, CONUS and the...
Go to contribution page -
Nataliya Skrobova (LPI RAS)23/10/2023, 17:05NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The latest results of the DANSS experiment are presented. DANSS is a one cubic meter highly segmented solid scintillator detector. It consists of 2500 scintillator strips, covered with gadolinium loaded reflective coating and read out with SiPMs and PMTs via wavelength shifting fibers. DANSS is placed under a 3.1 GW industrial reactor at the Kalinin NPP (Russia) on a movable platform. The...
Go to contribution page -
Javeria Makda (Wits student)23/10/2023, 17:20NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
In this work we derive limits on the WIMP-nucleon scattering cross-section by comparing the potential heat flow within the Earth from Dark Matter capture and subsequent annihilation to the observational value. This effect has been argued previously in the literature to provide a potential link to mass extinction phenomena on Earth. However, we focus on whether additional heat-flux from dark...
Go to contribution page -
Masayuki Wada (AstroCent: Nicolaus Copernicus Astronomical Centre, PAN)23/10/2023, 17:30NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
Darkside-20k, an underground dark matter search experiment located at
Go to contribution page
LNGS (Italy), aims to achieve a total exposure of 200 tonne-years
devoid of instrumental backgrounds. At its core is a dual-phase Time
Projection Chamber (TPC) containing 50 tonnes of low-radioactivity
liquid argon. Surrounding the entire TPC wall is a gadolinium-loaded
acrylic material, serving as a neutron veto. This... -
Sarah Mechbal (DESY Zeuthen)23/10/2023, 17:45NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
Since the beginning of its full operation in 2011, the IceCube Neutrino Observatory at the South Pole station, has pioneered many discoveries in neutrino astronomy, cosmic ray physics, and particle physics. This talk will present the experiment, and highlight recent discoveries, such as the evidence for neutrino emission from the active galactic nucleus NGC 1068, the first observation of...
Go to contribution page -
Immacolata Carmen Rea (INFN Sez. di Napoli)23/10/2023, 18:00NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The KM3NeT collaboration is constructing two last-generation underwater neutrino telescopes in two abyssal sites of the Mediterranean Sea. The scientific goal is to complement the IceCube sky coverage, instrumenting a comparable detection volume and improving the reconstruction accuracy.
Go to contribution page
Each telescope is a Cherenkov detector built with the same technologies but with a different geometrical... -
Dr stephane zsoldos (King's College London, UK)23/10/2023, 18:15Oral Presentation
Neutrino experiments based on water-Cherenkov detectors have made significant contributions
Go to contribution page
to our understanding of neutrino physics, but they face challenges in accurately modeling
detector systematic parameters due to their large size and the smallness of the cross-section
for weak interactions. While these experiments have achieved remarkable successes in the
past, the future era of... -
Bruno Zamorano24/10/2023, 09:25NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
SBND is a 112-ton liquid argon time projection chamber located on the Booster Neutrino Beam at Fermi National Accelerator Laboratory, and is the near detector of the Short-Baseline Neutrino program. The primary goals of SBND are to provide flux constraints for sterile neutrino searches, conduct world-leading neutrino cross-section measurements on argon, and perform beyond the Standard Model...
Go to contribution page -
Prof. Jihad Boumaaza (Universite Mohammed V in Rabat (MA))24/10/2023, 09:40NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The ANTARES detector is an underwater Cherenkov neutrino telescope. Its construction was completed in 2008 and it operated for sixteen years in the Mediterranean Sea. Even though optimised for the search for cosmic neutrinos, this telescope is also sensitive to exotic particles like magnetic monopoles and nuclearites (massive nuggets of strange quark matter). We discuss here the possible...
Go to contribution page -
Prof. Giulia Ricciardi (Dipartimento di fisica Pancini,Università di Napoli Federico II)24/10/2023, 09:50NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
We discuss as accurately as possible the cross section of quasi-elastic scattering of electron (anti-)neutrinos on nucleons, also known as inverse beta decay in the case of antineutrinos. We focus on the moderate energy range from a few MeV up to hundreds of MeV, which includes neutrinos from reactors and supernovae. We assess the uncertainty on the cross section, which is relevant to...
Go to contribution page -
110. Latest Result of the STEREO Experiment at the ILL & Interpreting Reactor Antineutrino AnomaliesMs Ilham El Atmani (Hassan II University, Fsac & CEA Paris Saclay)24/10/2023, 10:05NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The experimental and theoretical research on the physics of massive neutrinos is based on the standard paradigm of three-neutrino (3ν) mixing, which describes the oscillations of neutrino flavors measured in solar, atmospheric and long-baseline experiments. However, several anomalies are short baseline oscillation data, corresponding to an L/E of about 1m/MeV could be interpreted by involving...
Go to contribution page -
Prof. Albert De Roeck (CERN)24/10/2023, 10:15NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The SND@LHC experiment at the Large Hadron Collider is a new neutrino scattering experiment, that got approved and installed in 2021.
Go to contribution page
We report the direct observation of muon neutrino interactions with the SND@LHC detector using a dataset of proton-proton collisions at 13.6 TeV collected in 2022 and corresponding to an integrated luminosity of 36.8 fb−1. The search is based on information... -
Paolo Branchini (Roma3, INFN, Italy)24/10/2023, 10:30
The Belle II experiment at the SuperKEKB asymmetric-energy electron-positron collider has been collecting the world’s highest-intensity collisions at the $\Upsilon$(4S) since 2019. A data set comparable in size to that of predecessor experiments, Belle, and collected with the new detector, enables unique or world-leading results. Examples include indirect searches for non-standard-model...
Go to contribution page -
Tebogo Shaba (North-West University, iThemba LABs)24/10/2023, 11:20
Production of muons from heavy-flavour hadron decays in pp collisions at √s = 13 TeV with the ALICE detector
Tebogo Joyce Shaba on behalf of the ALICE Collaboration
North-West University, South Africa
iThemba LABs, Cape Town, South AfricaHeavy quarks (charm and beauty) are produced in early stages of the hadronic collision via hard-parton scatterings. In ALICE,...
Go to contribution page -
Martino Gagliardi (Università di Torino & INFN Torino)24/10/2023, 11:40
Cross section measurements are key to the ALICE physics program and require precise luminosity determination. In ALICE, the luminosity determination relies on visible cross sections measured in dedicated calibration experiments, the van der Meer scans. For the LHC Run 2 data samples, ALICE measured the luminosity with an uncertainty better than 2% for pp collisions and 3% for Pb-Pb collisions....
Go to contribution page -
Dr Kate Shaw (University of Sussex)24/10/2023, 14:49
ICTP Physics Without Frontiers (PWF) works to motivate, train, and educate physics and mathematics university students worldwide, with focus on science and technology lagging countries, to help build the next generation of scientists.
PWF organises projects working with volunteer scientists, who are PhD students, postdoctoral researchers, or lecturers from all over the world, who are...
Go to contribution page -
Claire Adam (LAPP / CNRS)24/10/2023, 15:02
The International Particle Physics Outreach Group (IPPOG) is a network of scientists, science educators and communication specialists working across the globe in informal science education and public engagement for particle physics. The primary methodology adopted by IPPOG includes the direct participation of scientists active in current research with education and communication specialists,...
Go to contribution page -
Hassnae El Jarrari (CERN)24/10/2023, 15:15
The Large Hadron Collider (LHC) at the European Organization for Nuclear Research (CERN) is not only a groundbreaking scientific facility but also a hub for international collaboration and knowledge exchange. Outreach, inspiration and education are some of the pilar missions of CERN, the LHC experiments are therefore committed to promoting global diversity and ensuring equitable access to...
Go to contribution page -
Dr Andrea Lausi (SESAME)24/10/2023, 15:28
Agriculture, archaeology, biology, biomedicine, chemistry, cultural heritage studies, engineering, energy, environmental science, forensic science, geology, materials science, nanotechnology, new drugs, palaeontology, and physics are just some of the fundamental, applied, and industrial fields that are being revolutionised by the advent of advanced light sources
The SESAME 2.5GeV storage...
Go to contribution page -
David Keitel (Universitat de les Illes Balears)24/10/2023, 15:41
The European research funding landscape offers several options for individual applicants. In particular, the most prestigious postdoc fellowship on the continent, the Marie Skłodowska-Curie programme, is open also to overseas applicants. I will share some experiences of how to successfully apply for this scheme, along with pointers to other more advanced grants (ERC). Very similar schemes are...
Go to contribution page -
Cristina Mattone (CAEN S.p.A.)24/10/2023, 15:54
Nuclear material is nowadays widely used in many fields, such as health, environment, agriculture, and industry. Besides its use for public utility, there is also the possibility that nuclear materials could be used for illicit purposes. For this reason, it is important that not only expert personnel, but also technicians and, as much as possible, common people, starting from high-level...
Go to contribution page -
Dr Sara Garti (BERTIN group)24/10/2023, 16:07
Bertin Technologies is an industrial group that develops high-performance instrumentation for critical
Go to contribution page
or scientific applications, such as defense & security, nuclear & health physics, and space.
The SaphyRAD product line is composed of a wide range of probes dedicated to the detection of all
types of particles (alpha, beta, neutron, and gamma). The latest developed probe is a... -
Sijing zZhang24/10/2023, 16:50
Many theories beyond the Standard Model (BSM) have been proposed to address several of the Standard Model shortcomings, such as the origin of dark matter and neutrino masses, the fine-tuning of the Higgs Boson mass, or the observed pattern of masses and mixing angles in the quark and lepton sectors. Many of these BSM extensions predict new particles or interactions directly accessible at the...
Go to contribution page -
Dr Ali El Moussaouy (University of Montreal)24/10/2023, 17:15
A search for non-resonant Higgs boson pair (𝐻𝐻) production is presented, in which one of the Higgs bosons decays to a b-quark pair (𝑏̄𝑏) and the other decays to 𝑊𝑊∗, or 𝑍𝑍∗, or 𝜏+𝜏− , with in each case a final state with 𝑙𝑙 + neutrinos (𝑙 = 𝑒, 𝜇). Both gluon-gluon fusion and vector boson fusion are considered as production modes. Data recorded by the ATLAS detector in proton-proton collisions...
Go to contribution page -
Hajar Imam (Universite Hassan II, Ain Chock (MA))24/10/2023, 17:30
The axion particle discovery could answer the big CP problem as it is hypothetically predicted. Hence A study on the exotic decay of the Higgs boson to two Axion Like Particles (ALPs), which in turn decay to two photons, was carried out. This analysis covers the mass range of ALPs between 100 MeV and 60 GeV and ALPs-photon couplings C$_{a\gamma\gamma}$ of 10$^{-5}$ to 1, a region that includes...
Go to contribution page -
Hassnae El Jarrari (CERN)24/10/2023, 17:45
Many extensions to the Standard Model (SM) introduce a hidden or a dark sector rising from an additional U(1)d gauge symmetry, to provide candidates for dark matter in the universe and a possible explanation to astrophysical observations such as the positron excess observed in the cosmic radiation flux. The gauge boson of the dark sector would be either a massless or a massive dark photon that...
Go to contribution page -
Noshin Tarannum (University of Geneva)24/10/2023, 18:00
First Physics Results from the FASER Experiment with LHC Run 3 Data
-on behalf of the FASER Collaboration
FASER, an experiment at the LHC, was designed to explore the existence of light, weakly interacting particles that are generated in proton-proton collisions at the ATLAS interaction point and travel in the far-forward direction. The initial data analysis focused on two searches:...
Go to contribution page -
Mohammed Boukidi (Cadi Ayyad University)24/10/2023, 18:12
We suggest an explanation for and explore the consequences of the excess around 95 GeV in the di-photon and di-tau invariant mass distributions recently reported by the CMS collaboration at the Large Hadron Collider (LHC), together with the discrepancy that has long been observed at the Large Electron-Positron (LEP) collider in the $b\bar b$ invariant mass. Interestingly, the most recent...
Go to contribution page -
Bassim Taki (Ibn Zohr University)24/10/2023, 18:24
In search of beyond standard model, several hints of the presence of a new state at about 95 GeV have recently been observed by both the ATLAS and CMS collaborations based on their full Run 2 data sets. This result becomes particularly intriguing when considering another excess reported by CMS in the di-tau final state at a comparable mass, which exhibits a similar local significance....
Go to contribution page -
Malak Ait Tamlihat (Mohammed V University)24/10/2023, 18:36
Gravitons are hypothetical particles that have yet to be directly observed, but they are predicted by various theories, including quantum gravity. One quantum mechanical process that allows for the production of particles that couple to photons, such as gravitons, is light-by-light scattering. While rare, this process can be observed and is sensitive to potential new physics beyond the...
Go to contribution page -
Mr KHALID GOURE (LPHEA, Faculty of Science Semlalia, Cadi Ayyad University, P.O.B. 2390 Marrakech)24/10/2023, 18:48
We study the one-loop prediction for the single production of the Standard Model (SM) Higgs boson ($h_1$) in association with a photon in electron-positron collision in the context of the Two Higgs Doublet Type II seesaw Model (THDMcT). This type of process is directly sensitive to one-loop impacts because it has no amplitude at the tree level. The cross section in the standard model (SM) is...
Go to contribution page -
Vitor de Souza (University of São Paulo)25/10/2023, 09:40DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The Cherenkov Telescope Array Observatory is the next generation ground-based telescope array to study very-high-energy electromagnetic radiation from the Universe. CTA will open a new era in this energy domain with its superior performance with respect to the current generation. In this talk, I will present the most important aspects of the very wide science case of CTA and I'll review...
Go to contribution page -
Lea Di Noto (University of Genova and INFN Sez. Genova)25/10/2023, 10:00NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The Deep Underground Neutrino Experiment (DUNE) aims to precisely measure the long baseline neutrino oscillation parameters, for a definitive determination of the neutrino mass ordering and for searching for charge-parity violation in the leptonic sector.
Go to contribution page
DUNE will utilize the most intense, wide spectrum muon neutrino/anti-neutrino beam, produced at Fermilab, and a 70 kton liquid Argon Time... -
Prof. Elke-Caroline Aschenauer (Brookhaven National Laboratory (US))25/10/2023, 10:20
Understanding the properties of nuclear matter and its emergence through the underlying partonic structure and dynamics of quarks and gluons requires a new experimental facility in hadronic physics known as the Electron-Ion Collider (EIC). The EIC will address some of the most profound questions concerning the emergence of nuclear properties by precisely imaging gluons and quarks inside...
Go to contribution page -
Prof. Yaquan Fang (Institute of High Energy Physics, Beijing)25/10/2023, 10:45DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The discovery of the Higgs boson marked the beginning of a new era in HEP. Precision measurement of the Higgs boson properties and exploring new physics beyond the Standard Model using Higgs as a tool become a natural next step beyond the LHC and HL-LHC. Among the proposed Higgs factories worldwide, the Circular Electron Positron Collider (CEPC) is proposed by the Chinese HEP community and to...
Go to contribution page -
Younes Otarid (CERN)25/10/2023, 11:35DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The proposed Compact Linear Collider (CLIC) will provide electron-positron collisions with centre-of-mass energy operation in three stages from a few hundred GeV up to 3 TeV. This offers a rich precision physics program combined with high sensitivity to a wide range of possible new phenomena. The precision required for such measurements and the specific conditions imposed by the beam bunch...
Go to contribution page -
Jan Klamka (University of Warsaw (PL))25/10/2023, 11:50DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The Compact Linear Collider (CLIC) is a proposed TeV-scale linear electron-positron collider based on a novel two-beam acceleration technique. With its high luminosity and a broad energy range, from 380 GeV to 3 TeV, CLIC presents a mature option for a future Higgs factory and discovery machine. Detailed studies of the CLIC physics potential based on a dedicated detector concept, CLICdet,...
Go to contribution page -
Prof. Fairouz Malek (LPSC, CNRS and UGA, Grenoble, France)25/10/2023, 12:00DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
Establishing a deep underground physics laboratory to study, amongst others, double beta decay, geoneutrinos, reactor neutrinos and dark matter has been discussed for more than a decade within the austral African physicists’ community. PAUL, Paarl Africa Underground Laboratory, is foreseen as an open international laboratory,inside the Huguenot Tunnel, which is located between the towns of...
Go to contribution page -
Nataliya Skrobova (INR Moscow, Russia)26/10/2023, 09:00DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The near detector of T2K (ND280) is undergoing a major upgrade. A new scintillator tracker, named superFGD, with fine granularity and 3D-reconstruction capabilities has been assembled at J-PARC. The new Time Projection Chambers are under construction, based on the innovative resistive Micromegas technology and a field cage made of extremely thin composite walls. New scintillator panels with...
Go to contribution page -
Sam Jenkins (University of Liverpool)26/10/2023, 09:20DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The upcoming Hyper-Kamiokande experiment is the third generation of water Cherenkov detector situated in Kamioka, Japan, following in the footsteps of the highly successful Kamiokande and Super-Kamiokande experiments. Hyper-Kamiokande will serve as the far detector for a long-baseline neutrino experiment utilising the neutrino beam from J-PARC, with the primary purpose being the measurement of...
Go to contribution page -
Ziad EL BITAR (Institut Pluridisciplinaire Hubert Curien, CNRS/IN2P3)26/10/2023, 09:40DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The first stage of the Future Circular Collider (FCC) will be an e+e- collider (FCC-ee) as successor to the Large Hadron Collider at CERN. The FCC-ee will enable a precise characterization of the Higgs boson together with electroweak, flavour, QCD, top precision physics, as well as searches beyond the Standard Model, with a real chance of discovery. Reaching experimental and theoretical...
Go to contribution page -
Enoch Ejopu (University of Manchester)26/10/2023, 10:00DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The LHCb experiment is the dedicated flavour physics experiment at the LHC and is planning its second major upgrade during Long Shutdown 4 in the early 2030s to increase its instantaneous luminosity by about one order of magnitude. At the heart of this will be a new Vertex Locator, which will continue to provide precise spatial resolution for particles produced in the proton-proton collision...
Go to contribution page -
yassine bimgdi26/10/2023, 10:10DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The ATLAS detector, a state-of-the-art particle detector, is uniquely situated
Go to contribution page
100 meters below the earth’s surface in the tunnel of the Large Hadron
Collider (LHC), extends 44 meters in length and 25 meters in height with an
estimated mass of 7000 tons, and provides 4π coverage in solid angle due to
its symmetric cylindrical design.
By 2029, the luminosity is expected to increase... -
Hanane Riani (Université Mohammed Premier Oujda (MA))26/10/2023, 10:20DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The increase of the particle flux (pile-up) at the HL-LHC with instantaneous luminosities up to L ≃ 7.5 × 10$^{34}$ cm$^{−2}$s$^{−1}$ will have a severe impact on the ATLAS detector reconstruction and trigger performance. The end-cap and forward region where the liquid Argon calorimeter has coarser granularity and the inner tracker has poorer momentum resolution will be particularly affected....
Go to contribution page -
Anna Lupato (University of Padova)26/10/2023, 11:00
This talk presents an overview of the recent results from the LHCb experiment: CP violation and mixing in charm and beauty measurements, lepton flavour universality tests and lepton flavor violation, spectroscopy, electroweak measurements and searches for new physics.
Go to contribution page -
Alex Keshavarzi (The University of Manchester)26/10/2023, 11:20
The Muon g-2 endures as one of the most stringent tests of the Standard Model (SM). The recent combined result from Run 2 and Run 3 of the Muon g-2 Experiment at Fermilab confirms both the Run-1 Fermilab and Brookhaven measurements of the Muon g-2 with an overall unprecedented precision of 190 parts-per-billion, and it has already surpassed the overall target for its systematic uncertainty....
Go to contribution page -
Prof. Francesca De Mori (University' di Torino & INFN sez. di Torino)26/10/2023, 11:40
The BESIII experiment, which is operated at the BEPCII electron-positron collider in Beijing since 2009, has collected world leading high statistic data samples in the tau-charm energy region. This offers unique possibilities to study exotic QCD states in the charmonium sector, but also the light meson spectrum which can be accessed via charmonium decays. The talk will discuss recent studies...
Go to contribution page -
Kate Shaw (University of Sussex, UK)26/10/2023, 12:00
The large top quark samples collected with the ATLAS experiment at the LHC have yielded measurements of the production cross section of unprecedented precision and in new kinematic regimes. They have also enabled new measurements of top quark properties that were previously inaccessible, enabled the observation of many rare top quark production processes predicted by the Standard Model and...
Go to contribution page -
Prof. Marielle Chartier (University of Liverpool (UK))26/10/2023, 14:00
Recent highlights and future plans with ALICE at the LHC
Marielle Chartier$^1$ for the ALICE Collaboration
$^1$University of Liverpool, Oliver Lodge Laboratory, United KingdomALICE (A Large Ion Collider Experiment) is one the four large experiments at the CERN Large Hadron Collider (LHC), whose research programme aims at an understanding of the phase equilibria of hadronic matter...
Go to contribution page -
Bharati Naik (University of the Witwatersrand, Johannesburg)26/10/2023, 14:25
The ALICE detector at the LHC is dedicated to the study of the properties of the hot and dense QCD matter (quark-gluon plasma) produced in nucleus-nucleus collisions at ultra-relativistic energies. The heavy flavor (charm and beauty) quarks, having large masses, are produced in hard-parton scatterings at the early stages of the collisions. Their measurements in pp collisions are an important...
Go to contribution page -
Diego Stocco (Subatech)26/10/2023, 14:45
Quarkonia are bound states of charm or beauty quarks with their anti-particle. They have long being considered as unique probes of the quark-gluon plasma (QGP) that is formed in ultra-relativistic heavy-ion collisions. Heavy quarks are produced in the hard scattering processes occurring at the beginning of the collision, while the formation of the bound state is affected by the presence of the...
Go to contribution page -
Dr Aparajita Mazumdar (Los Alamos National Laboratory)26/10/2023, 15:05NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The Majorana nature of the neutrino, i.e., whether it is its own antiparticle, remains an open problem in modern physics. The observation of Neutrinoless Double Beta Decay (0$\nu\beta\beta$), a hypothesized beyond Standard Model process, would conclusively establish the Majorana nature of neutrinos. It would also demonstrate lepton number violation and could provide insight into the absolute...
Go to contribution page -
Konstantin Kouzakov (Lomonosov Moscow State University)26/10/2023, 15:20NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
We discuss a new experiment based on the proposal [1] to observe for the first time the coherent elastic neutrino-atom scattering (CEνAS), using electron antineutrinos from tritium decay and a liquid He-4 target, and also to search neutrino electromagnetic properties [2], including the neutrino magnetic moment. The experiment is under preparation within the research program of the National...
Go to contribution page -
Valerio Pia (INFN Bologna, Italy)26/10/2023, 16:05NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The ICARUS collaboration has employed the 760-ton T600 detector in a successful three-year physics run at the underground LNGS laboratory, performing a sensitive search for LSND-like anomalous $\nu_e$ appearance in the CERN Neutrino to Gran Sasso beam, which contributed to the constraints on the allowed neutrino oscillation parameters to a narrow region around 1 eV$^2$. After a significant...
Go to contribution page -
Anthony Ezeribe26/10/2023, 16:20NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The Short-Baseline Near Detector (SBND) will be one of three Liquid Argon Time Projection Chamber (LArTPC) neutrino detectors positioned along the axis of the Booster Neutrino Beam (BNB) at Fermilab, as part of the Short-Baseline Neutrino (SBN) Program. The detector is anticipated to begin operation later this year. SBND is characterized by superb imaging capabilities and will record over a...
Go to contribution page -
Jacques Dumarchez (LPNHE Paris, France)26/10/2023, 16:35NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
Precise knowledge of how neutrinos interact with matter is essential for measuring neutrino oscillations in long-baseline experiments. At the T2K experiment, the near detector complex measures neutrino interactions to constrain cross section models for oscillation studies and characterises the beam flux. In addition, the near detector complex provides a separate platform for performing...
Go to contribution page -
Leïla Haegel (IP2I Lyon)26/10/2023, 16:50NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The Deep Underground Neutrino Experiment (DUNE) is a long-baseline neutrino oscillation experiment currently in construction and expected to take data in late 2020s. In order to explore a wide range of physics, from precise measurements of the neutrino oscillation parameters to proton decay and supernova neutrino detection, it will comprise a far detector complex located in the Sanford...
Go to contribution page -
Prof. Albert De Roeck (CERN)26/10/2023, 17:05NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
Searches for new physics are conducted in different experimental conditions, e.g. at high energy colliders or with high intensity particle beams. The Deep Underground Neutrino Experiment (DUNE) will be a powerful tool for the study of a variety of physics topics, due to its high-intensity proton beams that provide large neutrino fluxes, and which are sampled by a near detector system...
Go to contribution page -
Giuseppe Andronico (INFN – Catania, Italy)26/10/2023, 17:20NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
The Jiangmen Underground Neutrino Observatory (JUNO) is a multi-purpose neutrino experiment currently under construction in southern China.
Go to contribution page
The detector consists of a 35.4 m diameter acrylic sphere filled with 20 kton of ultra-pure liquid scintillator and makes JUNO the largest LS-based, underground neutrino observatory capable of addressing many important topics in different fields of... -
Meriem Bendahman (Faculty of Sciences, Mohammed V University in Rabat, Rabat - Laboratoire Astroparticules et Cosmologie, Université Paris cité, Paris)27/10/2023, 09:00
Core-collapse supernovae (CCSNe) play a significant role in our understanding of the Universe's dynamics. The time profile of neutrinos emitted during these supernovae offers valuable insights into the mechanism behind collapsing stars and the behavior of particles in extremely dense environments. The detection of neutrinos from the SN1987A supernova in the Large Magellanic Cloud marked a...
Go to contribution page -
Mohammed Bouta (Mohammed First University in Oujda)27/10/2023, 09:25
We present the results from the analysis of the down-going flux of nuclearites, based on data collected over a period of nine years (2009 to 2017) using the ANTARES neutrinos telescope. The results exhibit a remarkable enhancement compared to previously reported results. Notably, they represent the pioneering observation made by a neutrino telescope regarding nuclearites, setting the most...
Go to contribution page -
Artem Popov (Lomonosov Moscow State University)27/10/2023, 09:38
In this contribution we continue our studies [1,2] of neutrino oscillations in a magnetic field. We consider neutrino flavour and spin oscillations in a magnetic field within the formalism of wave packets. Decoherence effects due to the wave packets separation are studied. The coherence lengths for oscillations on both vacuum $\omega^{vac}_{ij} = \Delta m^2_{ij}/4E_\nu$ and magnetic...
Go to contribution page -
Alexander Studenikin (Moscow State University)27/10/2023, 09:51
It is well-known that dense matter can strongly affect the neutrino moving through it. It has been recently realized that transversal matter motion can substantially change neutrino dynamics in some astrophysical settings and, in particular, leads to the appearance of spin oscillations (see [1] and references therein). In this work we investigate neutrino quantum sates in transversally moving...
Go to contribution page -
Safae Tariq (Mohammed V University)27/10/2023, 10:04
The entropy of von-Neumann can be computed directly by describing the density matrix of the associated system. For black holes however, it is rather difficult to evaluate this entropy because before all else we must have a quantum formulation of this gravitational system. We outline the derivation of a gravitational fine-grained entropy using a quantum extremal surface that extremizes the...
Go to contribution page -
Houda Filali (Lab of High Energy Physics, Modeling and Simulations, Faculty of Science, Mohammed V University- Agdal, Rabat)27/10/2023, 10:17
[Abstract pdf file attachement][1]
Go to contribution page
In this work, we study a model of holographic dark energy using FLRW cosmology in the context of modified gravity. An extension of the symmetric teleparallel gravity is obtained by considering the gravitational action $L$ is given by an arbitrary function $f$ of the non-metricity $Q$, where the nonmetricity Q is responsible for the gravitational interaction,... -
Kevin Black (University of Wisconsin-Madison)27/10/2023, 11:00
An overview of recent results from the CMS experiment will be presented along with the preparation and upgrade of the CMS experiment for the HL-LHC.
Go to contribution page -
Dr Semlali Souad (Southampton (UK))27/10/2023, 11:25
Motivated by the recent search for bbτ τ final state conducted by the CMS experiment, we would like to address the study of signal and background for such a final state within the so-called 2HDM Type-I. We investigate the scope of the LHC in accessing the process gg → H → hh → b b τ τ by performing a Monte Carlo (MC) analysis aimed at extracting this signal from the SM backgrounds, in the...
Go to contribution page -
Luca Cadamuro27/10/2023, 11:40
In the Standard Model, the ground state of the Higgs field is not found at zero but instead corresponds to one of the degenerate solutions minimising the Higgs potential. In turn, this spontaneous electroweak symmetry breaking provides a mechanism for the mass generation of nearly all fundamental particles. The Standard Model makes a definite prediction for the Higgs boson self-coupling and...
Go to contribution page -
Jan Klamka (University of Warsaw (PL))27/10/2023, 12:05
Future e$^+$e$^-$ colliders, thanks to their clean environment and triggerless operation, offer a unique opportunity to search for long-lived particles (LLPs) at sub-TeV energies. Considered in this contribution are promissing prospects for LLP searches offered by the International Large Detector (ILD), with a Time Projection Chamber (TPC) as the core of its tracking systems, providing almost...
Go to contribution page -
Emery Nibigira27/10/2023, 14:00
Search for new physics Beyond Standard Model (BSM) is one of the major goals of the CMS experiments at the LHC. A variety of BSM searches including exotic signatures, narrow resonances such as W' and Z' particles decaying to final states with top quarks and Higgs boson is presented. The results are based on proton-proton collision data collected during Run 2 of the LHC at a centre-of-mass...
Go to contribution page -
Mattia Soldani27/10/2023, 14:25
An overview of the latest results from the NA62 experiment at CERN will be presented.
Go to contribution page
The NA62 experiment collected the world's largest dataset of charged kaon decays in 2016-2018, leading to the first measurement of the branching ratio of the ultra-rare $K^+ \rightarrow \pi^+ \nu \bar\nu$ decay, based on 20 candidates. This provides evidence for the very rare $K^+ \rightarrow \pi^+ \nu... -
Es-said Ghourmin (FSA Agadir)27/10/2023, 14:50
Following the recent update measurement of the W boson mass performed by the CDF-II experiment at Fermilab which indicates 7σ deviation from the SM prediction. As a consequence, the open question is whether there are extensions of the SM that can carry such a remarkable deviation or what phenomenological repercussions this has. In this paper, we investigate what the theoretical constraints...
Go to contribution page -
Mr Mbark Berrouj (Polydisciplinary Faculty, Laboratory of Fundamental and Applied Physics, Cadi Ayyad University)27/10/2023, 15:02
While experimental data has not ruled out the possibility of additional Higgs bosons or gauge sectors, several alternative models have been proposed to go beyond the standard model and tackle the question of hierarchy. These models predict the existence of heavy vector-like partner quarks that exhibit vector-axial (V-A) coupling, typically on the TeV scale. In this work, we use simplified...
Go to contribution page -
hamza ABOUABID (Université Abdelmalek Essaadi, Fstt , tangier)27/10/2023, 15:14
In light of the recent deviation in the W boson mass measurement from the CDF-II, which significantly strays from the Standard Model (SM) prediction, our paper explores the implications of this within the framework of the Two-Higgs Doublet Model (2HDM). We focus on the scenario where the heavy CP-even H is recognized as the Higgs boson observed at 125 GeV.
Our analysis, which incorporates...
Go to contribution page -
Mohamed Krab (Research Laboratory in Physics and Engineering Sciences, Modern and Applied Physics Team, Polydisciplinary Faculty, Beni Mellal, 23000, Morocco)27/10/2023, 15:26
Most of the current experimental searches for charged Higgs bosons at the Large Hadron Collider (LHC) concentrate upon the $tb$ and $\tau\nu$ decay channels. In this study, we analyze the feasibility of the bosonic decay channel $W^{\pm (*)} h$ instead, with the charged gauge boson being either on-shell or off-shell and $h$ being a neutral light Higgs boson. Focusing on the Two-Higgs Doublet...
Go to contribution page -
AYOUB HMISSOU (Ibn Zohr University)27/10/2023, 15:38
The aim of this study is to examine the impact of the Z+photon and Di-photon signal strength measurements, $\mu_{\gamma\gamma}$ and $u_{\gamma Z}$, on the allowed parameter space of the Inert Doublet Model (IDM). Specifically, we focus on the effect of these measurements on the second doublet mass $\mu_2^2$, and also their compatibility with the most recent constraint from the XENON1T...
Go to contribution page -
Abdeslam Aghrib (Tanger University)27/10/2023, 16:40
-
Latifa Elouadrhiri (JLab, USA)27/10/2023, 16:55Oral Presentation
-
Fairouz Malek (LPSC, CNRS and UGA, Grenoble, France)27/10/2023, 17:25officials
-
Mohamed OUHAMMOU (Recherche Laboratory in Physics and Engineering Sciences, Team of Modern and Applied Physics, FPBM, USMS, Morocco)
In this work, we investigate the decay of the proton into neutron, positron and electron neutrino in the presence of an external electromagnetic field with circular polarization. Different physical quantities related to this decay process, such as proton’s decay rate and its lifetime, are calculated based on the S-matrix approach. The proton and positron are treated as Dirac-Volkov states,...
Go to contribution page -
ZOUHAIR HINDI (Université Mohamed 5 Rabat)PHYSICS BEYOND THE STANDARD MODELPoster
The W boson mass plays a crucial role as one of the most significant electroweak precision observables for scrutinizing the Standard Model and it is potential extensions. Recent measurements of the W boson mass at CDF indicate an extraordinary deviation of about 7σ from the SM predicted value, raising questions about the internal consistency of the model.
In this work, we investigate the...
Go to contribution page -
Dalale Mhamdi (Mohamed First University. Faculty of Sciences, Physique's Department. Laboratory of Physique, Matter & Radiation (LPMR). Oujda, Morocco.)ASTROPARTICLE PHYSICS AND COSMOLOGYwithdrawn
In our study, we apply the statefinder diagnostic tool to the phantom dark energy $(DE)$ models, including the big rip (BR), the little sibling of the big rip $(LSBR)$, and the little rip $(LR)$. The statefinder diagnostics are plotted according to the best fit extracted from each model using a Markov Chain Monte Carlo method. Our results demonstrate that, in the high-redshift region, the...
Go to contribution page -
Mohamed JAKHA (Sultan Moulay Slimane University, Polydisciplinary Faculty, Beni Mellal, Morocco)
The rapid development of laser technology has paved the way for the use of laser sources to study relativistic processes in the fields of quantum electrodynamics, atomic physics and high energy physics. In this context, the main purpose of this talk is to advance our understanding of the ultrafast physical processes that occur in the presence of a laser field. It, therefore, belongs to the...
Go to contribution page -
Prof. Emmanuel Aiyohuyin (University of Benin, Nigeria)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
This study was aimed at determining theoretically the parameter from the sum of neutrino masses as predicted using the quantum gravitational couplings/effective Majorana dimensionless coupling from the spherical symmetry vacuum solution. A seesaw mechanism (ala mode matrix) was adopted; where the SU matrix was diagonalized to get the mass eigen states. The parameter which is expressed as a...
Go to contribution page -
zakaria bouafiaNEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
This research delves into the influence of intrinsic decoherence on the
Go to contribution page
behavior of quantum correlations and coherence between two interacting qubits in a
graphene-based system. To evaluate the amount of nonclassical correlations in the
system, we employ local quantum uncertainty (LQU), and to assess quantum
coherence, we use the relative entropy of coherence (Cr) and l1-norm (Cl1).... -
Prof. Konstantin Kouzakov (Lomonosov Moscow State University)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
The nonzero neutrino masses open a door for neutrino electromagnetic interactions [1]. We study how these interactions may manifest themselves in elastic neutrino-nucleon scattering processes. Following our approach developed for the case of elastic neutrino-electron [2] and neutrino-proton [3-5] collisions, in our formalism we account for possible electromagnetic form factors of massive...
Go to contribution page -
Prof. Konstantin Kouzakov (Department of Nuclear Physics & Quantum Theory of Collisions Faculty of Physics Lomonosov Moscow State University)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
Deep inelastic scattering on nucleons is the main process of interaction of high-energy neutrinos with matter. The corresponding cross sections are measured, for example, in the IceCube experiment on the basis of the dependence of the neutrino flux registered in the range 60 TeV - 10 PeV on the direction of its arrival in the detector [1]. This provides a unique opportunity to study the...
Go to contribution page -
El Abassi Abderrazaq (Ibn-Tofail University, Faculty of Sciences Kenitra (MA))NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
Hyper-Kamiokande is a new generation of deep underground neutrinos experiments expected to take data in 2027. The detector tank is 68 m in height and 71m in diameter, with a total volume of 258kt. The fiducial volume for neutrinos interactions is expected to be 180kt or greater, This is at least 8 times larger than SuperK. This will enhance the discovery of CP violation and nucleus decay....
Go to contribution page -
Dr James Mugambi Linturi (South Eastern Kenya University)EDUCATION & OUTREACH IN AFRICAOral Presentation
ABSTRACT
Go to contribution page
Kenyan higher education has experienced tremendous expansion in the last one decade. The number of Universities has significantly increased and the number of academic programmes almost doubled. Physics is one of the specialties offered at undergraduate and postgraduate levels in most of the Kenyan Universities. Thematic areas of interest range from condensed matter Physics, radiation... -
André Aimé Atangana Likéné (University of Yaoundé I)STRONG INTERACTIONS HADRON PHYSICSwithdrawn
In this research, we investigate the spectra and dynamical properties of charmonium S-states in the presence of large extra dimensions of space. From the experimental point of view, this study was motivated on the one hand by the fact that the search for extra dimensions of space with CMS and ATLAS detectors of LHC has recently experienced exciting progress.On the other hand, we were...
Go to contribution page -
Elena Gramellini (University of Manchester)NEUTRINO PHYSICS AND DARK MATTER SEARCHESwithdrawn
The MicroBooNE experiment utilizes an 85-ton active volume liquid argon time projection chamber (LArTPC) neutrino detector. It can distinguish between photons and electron electromagnetic showers and can select charged current electron neutrino and muon neutrino events with exceptional performance. In this talk, we will presentresults on MicroBooNE's investigation of the MiniBooNE Low Energy...
Go to contribution page -
Artem Popov (Lomonosov Moscow State University)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
We generalize our previous results on neutrino flavor and spin flavour oscillations
Go to contribution page
in an external magnetic field and arbitrary moving media accounting for neutrino
electromagnetic interaction [1-2]. We consider neutrino oscillations and evolution
accounting for: 1) the neutrino interaction with an external magnetic field through
neutrino magnetic moment; 2) weak interaction with an... -
Xining Wang (Tsinghua University)
A search is reported for near-threshold structures in the J/ψJ/ψ invariant mass spectrum produced in proton-proton collisions at √s = 13 TeV from data collected by the CMS experiment, corresponding to an integrated luminosity of 135 fb−1. A new structure is observed with a significance above 5 standard deviations at a mass of 6552 ± 10 (stat) ± 12 (syst) MeV. Another structure with even higher...
Go to contribution page -
Ms Rajae Sammani (LPHE-MS, Science Faculty, Mohammed V University in Rabat, Morocco)ASTROPARTICLE PHYSICS AND COSMOLOGYOral Presentation
We investigate Swampland bounds on the 3D topological Anti-de Sitter gravity using the Chern-Simons description with numerous split real forms of Lie algebras. We define an AdS3 Landscape and compute the explicit upper bound on the rank of possible gauge groups to validate the Swampland constraint on the number of massless modes for topological gravity in 3D. We examine the implications of...
Go to contribution page -
Chiara Roda (Universita` e INFN Pisa)DETECTORS AND FUTURE EXPERIMENTAL FACILITIESwithdrawn
With the restart of the proton-proton collision program in 2022 (Run-3) at the Large Hadron Collider (LHC), the ATLAS detector aims to double the integrated luminosity accumulated during the ten previous years of operation. After this data-taking period the LHC will undergo an ambitious upgrade program to be able to deliver an instantaneous luminosity of $7.5\times 10^{34}$ cm$^{-2}$...
Go to contribution page -
Selaiman RidouaniDETECTORS AND FUTURE EXPERIMENTAL FACILITIESPoster
The increase of the particle flux (pile-up) at the HL-LHC with instantaneous luminosities up to L ≃ 7.5 × 1034 cm−2s−1 will have a severe impact on the ATLAS detector reconstruction and trigger performance. The end-cap and forward region where the liquid Argon calorimeter has coarser granularity and the inner tracker has poorer momentum resolution will be particularly affected. A High...
Go to contribution page -
Angela Romano (University of Birmingham)QUARK AND LEPTON FLAVOR PHYSICSwithdrawn
The NA62 experiment at CERN collected the world's largest dataset of charged kaon decays in 2016-2018, leading to the first measurement of the branching ratio of the ultra-rare $K^+ \rightarrow \pi^+ \nu \bar\nu$ decay, based on 20 candidates. In this talk the NA62 experiment reports recent results from analyses of $K^+ \rightarrow \pi^0 e^+ \nu \gamma$, $K^+ \rightarrow \pi^+ \mu^+ \mu^-$ and...
Go to contribution page -
Prof. Konstantin Kouzakov (Lomonosov Moscow State University)ASTROPARTICLE PHYSICS AND COSMOLOGYPoster
We study theoretically the propagation of cosmic neutrinos in an interstellar magnetic field, which is known to have both constant and stochastic components. The neutrino interaction with a magnetic field is assumed to be due to a non-zero neutrino magnetic moment. For taking into account the effect of magnetic field fluctuations, the formalism of the Lindblad equation is employed that...
Go to contribution page -
mourad benzahraNEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
Superconducting charge qubits represent a cutting-edge technology in the field of quantum
Go to contribution page
computing. This study delves into the behaviors of thermal coherence and quantum correlations
within a two-superconducting charge qubit system coupled by a fixed capacitance. Specifically, we
investigate the effects of thermal noise on entanglement, nonclassical correlations, and quantum
coherence... -
Alexander Studenikin (Moscow State University)ELECTROWEAK AND HIGGS PHYSICSPoster
The effect of neutrino quantum decoherence has been studied actively in recent years (see [1-3] and references therein). In our present paper we consider the interaction with an arbitrary reservoir in thermodynamic equilibrium. We have found that within a fairly wide class of theoretical models the parameters of neutrino quantum decoherence are proportional to the neutrino decay rates into a...
Go to contribution page -
NOUR-EDDINE ABOUELKHIR (Faculty of Sciences, Mohammed V University in Rabat, Rabat, Morocco.)PHYSICS BEYOND THE STANDARD MODELPoster
Quantum-enhanced measurements exploit quantum mechanical effects for increasing the sensitivity of measurements of certain physical parameters and have great potential for both fundamental science and concrete applications. Most of the research has so far focused on using highly entangled states, which are, however, difficult to produce and to stabilize for a large number of constituents. In...
Go to contribution page -
Sanae Ezzarqtouni (faculte des sciences Ain Chock Casablanca)PHYSICS BEYOND THE STANDARD MODELPoster
The existence of dark matter (DM) is carried by a variety of astrophysical measurements, however the nature and properties of the DM are still largely unidentified. The presence of DM is not predicted by the Standard Model (SM), but many theories beyond the Standard Model (BSM) offer the study of DM. Weakly Interacting Massive Particles (WIMPs, denoted as $\chi$) are frequently used as...
Go to contribution page -
Ms Essalha ChaoukiNEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
We investigate how bipartite entanglement and skew information correlations are affected by
Go to contribution page
intrinsic decoherence in a hybrid qubit-qutrit Heisenberg XXZ model that incorporates the
Dzyaloshinsky-Moriya interaction and is subject to the action of an external inhomogeneous
magnetic field. We employ local quantum uncertainty and uncertainty-induced nonlocality to
estimate skew information... -
Safae dahmani (Mohammed I University, Oujda, Morocco)ASTROPARTICLE PHYSICS AND COSMOLOGYwithdrawn
The discrepancy between Planck data and direct measurements of the current expansion rate $H_0$ and the matter fluctuation amplitude $S_8$ has become one of the most intriguing puzzles in cosmology nowadays. The $H_0$ tension has reached $5\sigma$ in the context of standard cosmology i.e $\Lambda$CDM. Therefore, explanations to this issue are mandatory to unveil its secrets. Despite its...
Go to contribution page -
Kenny Kalesayi (Université de Kinshasa, République Démocratique du Congo)
The talk delivers a thorough overview of the present state of particle physics research in the Democratic Republic of Congo (DRC), highlighting the country's emergence as a promising participant in the global particle physics community despite facing socio-economic challenges. The focus is on ongoing research projects, underscoring international collaborations and local initiatives dedicated...
Go to contribution page -
Michel Gonin (Ecole Polytechnique, France)NEUTRINO PHYSICS AND DARK MATTER SEARCHESOral Presentation
-
Haijun YANG (Shanghai Jiao Tong University)DETECTORS AND FUTURE EXPERIMENTAL FACILITIESOral Presentation
The discovery of the Higgs boson marked the beginning of a new era in HEP. Precision measurement of the Higgs boson properties and exploring new physics beyond the Standard Model using Higgs as a tool become a natural next step beyond the LHC and HL-LHC. Among the proposed Higgs factories worldwide, the Circular Electron Positron Collider (CEPC) is proposed by the Chinese HEP community and to...
Go to contribution page -
Youssra BOUJAKHROUT (Laboratoire de Physique des Hautes Energies Modélisation et Simulation)PHYSICS BEYOND THE STANDARD MODELPoster
Based on the correspondence linking integrable superspin chain systems with internal symmetry described by a superalgebra to four-dimensional Chern-Simons gauge theory, we realize the sl(m|n) superspin chain model in terms of branes in Type IIA strings.
Go to contribution page
For this purpose, we study the presentation of four-dimensional topological line defects having super gauge symmetry in the higher... -
Mohammed Charkaoui (UM5R)ASTROPARTICLE PHYSICS AND COSMOLOGYPoster
The quest of a theory of quantum gravity has been a long journey for physicists, even after the introduction of string theory which has solved many problems on the matter. Recently the Swampland Program has made great progress, since it differentiates between what could be a theory of quantum gravity and what theories could not. This can be done by introducing some conditions, also known as...
Go to contribution page -
HAYAT LAASSIRIASTROPARTICLE PHYSICS AND COSMOLOGYPoster
This work delves into a comprehensive examination of the phase portrait and critical characteristics of a specific type of black hole solution, namely the Kerr-Newman-anti-de Sitter black hole. Our study takes into account the presence of two sources of energy. By considering the cosmological constant as an analog of thermodynamic pressure, we elucidate the essential methodologies employed to...
Go to contribution page -
Artem Popov (Lomonosov Moscow State University)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
We consider the influence of quantum decoherence of neutrino mass states on collective neutrino oscillations in the supernova fluxes. Collective neutrino oscillations arise from the high density of neutrinos themselves which is the case in supernovae. In our work the neutrino system is considered as an open quantum system, taking into account the neutrino self-interaction. To study such a...
Go to contribution page -
Dr Mansoura Oumennana (Hassan II University of Casablanca)NEUTRINO PHYSICS AND DARK MATTER SEARCHESPoster
We investigate the dynamics of bipartite entanglement and nonclassical correlations in a dipole-dipole two-spin system subjected to the Dzyaloshinsky-Moriya (DM) interaction and the intrinsic decoherence. We consider that our system is initially prepared in a Werner state, and we study the effects of the intrinsic decoherence rate, the DM interaction, the dipolar coupling parameters and the...
Go to contribution page -
Prof. Giorgio Bellettini (University of Pisa and Infn Pisa), Simone Donati (University of Pisa and Infn Pisa)EDUCATION & OUTREACH IN AFRICAwithdrawn
Since 1983 the Italian groups collaborating with Fermilab (US) have been running a 2-month summer training program for Master students. While in the first year the program involved only 4 physics students, in the following years it was extended to engineering students. Many students have extended their collaboration with Fermilab with their Master Thesis and PhD.
Go to contribution page
The program has involved... -
Ivano Sarra (LNF - INFN)
The Mu2e experiment, under construction at Fermilab, will search for the neutrino-less coherent conversion of the muon into an electron in an aluminum nucleus. This Charged Lepton Flavour Violation (CLFV) process has a very clear signature, a single mono-energetic electron with energy slightly below the muon rest mass.
Go to contribution page
The Mu2e experiment aims to improve by four orders of magnitude the... -
47. The two Higgs doublet type-II seesaw model: Naturalness and B̄ → X s γ versus heavy Higgs massesMr Brahim Ait Ouazghour (LPHEA, Marrakech,)PHYSICS BEYOND THE STANDARD MODELwithdrawn
We extend the work [1] to a more general and detailed analysis through studying the naturalness problem and B physics constraints within the context of two higgs doublets model augmented with a complex scalar triplet field (2HDMcT). We first derive the modified Vetman conditions and show that naturalness problem might be evaded at the electroweak scale. Then, we evaluate the branching ratio of...
Go to contribution page
Choose timezone
Your profile timezone: