Dark Matter Search with ATLAS: Active Learning Application
Explore an active learning application in the search for dark matter using ATLAS PanDA and iDDS. Investigate Beyond Standard Model physics parameters related to Hidden Abelian Higgs Model and New Scalar with a focus on cross-section limit calculations. Understand the process for generating Monte Car
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New Higgs Bosons and Physics Beyond the Standard Model
Discoveries of new Higgs bosons at the electroweak scale, hints for new scalars at 95 GeV and 151.5 GeV, investigations into the nature of the 151.5 GeV Higgs as a triplet, and analyses of top-quark distributions at the LHC hint at exciting possibilities for physics beyond the Standard Model. ATLAS
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Accelerator R&D for High-Energy Physics: Advancements and Future Prospects
Vladimir Shiltsev's presentation at DPF-PHENO 2024 discusses the evolution of accelerator R&D in high-energy physics, emphasizing the need for off-shore Higgs factories and targeted collider developments. The P5 recommendations underscore the importance of engaging in feasibility studies for advance
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Innovative Hybrid Asymmetric Linear Higgs Factory (HALHF) Proposal
Cutting-edge proposal for the HALHF facility aiming to revolutionize particle acceleration technology by utilizing a hybrid asymmetric approach for electron-positron colliders. The design focuses on cost-efficiency and performance optimization, showcasing potential for significant advancements in hi
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Exploring Quantum Chromodynamics and Effective Potential in Vacuum Physics
Delve into the intricacies of Quantum Chromodynamics and the concept of effective potential in the context of vacuum physics. Discover how quarks, leptons, photons, W and Z bosons, gluons, and the Higgs boson play crucial roles in shaping the fundamental structures of the quantum vacuum. Explore the
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Overview of ECFA-UK: European Committee for Future Accelerators and its Activities
ECFA-UK, the European Committee for Future Accelerators, consists of members from prestigious institutions in the UK like Oxford, Edinburgh, Bristol, RAL, Glasgow, Cambridge, and UCL. The committee's main objective is to assess and ensure the well-being of the particle physics field in Europe and en
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Exploring Moduli Spaces of 3D N=4 Quiver Gauge Theories
Study the rich moduli spaces and symmetries in 3D N=4 quiver gauge theories, analyzing superpartners, scalar fields, and the natural splitting of moduli space into Coulomb and Higgs branches. Gain insights into SUSY theories, duality, and potential applications in string theory and geometry.
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Exploring Associated ttH Channel and Higgs Combinations in Particle Physics
Discussion on the associated ttH channel and Higgs combination in particle physics, focusing on observations, results, and implications from experimental data at CERN. Highlights the production and decay channels of the Higgs boson, observations in various experiments, and considerations for future
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Update on GDR Task Working Groups and Conveners Meeting
The conveners' meeting highlighted changes in working group names, additions to topics, and the importance of collaboration. Key areas include rare decays, flavor physics, and the search for new particles. Emphasis was placed on addressing overlaps and current interests in light boson searches for t
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Cutting-edge Proton EDM Storage Ring Experiment Insights
Detailed overview of the Proton EDM Storage Ring Experiment by William Morse, highlighting challenges in neutron EDM sensitivity, magic momentum phenomenon in electric fields, and advancements in proton EDM experiment sensitivity. Explore the critical parameters related to axion physics, CP-violatio
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Exploring Invisible Higgs Decays: Insights from ILC and LHC
Investigating invisible Higgs decays plays a crucial role in unveiling potential signals of new physics, like Dark Sectors or Dark Matter. The search for invisible Higgs decays at the International Linear Collider (ILC) and the Large Hadron Collider (LHC) involves unique techniques such as recoil ma
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Nuclear Shapes at Critical Point of U(5)-SU(3) Phase Transition
Exploring nuclear shapes at the critical point of the U(5)-SU(3) nuclear shape phase transition using Bohr Hamiltonian with a sextic oscillator potential. The study investigates the transition from a spherical vibrator (U(5)) to a prolate rotor (SU(3)), providing insights into the Interacting Boson
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Beam Energy Calibration with Compton Scattering Method
The CEPC beam energy calibration with Compton scattering method led by Yongsheng Huang and the CEPC energy calibration working group involves collaborations with various institutions and organizations. The project includes detailed physics requirements, system designs, and implementation plans for b
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Understanding the Standard Model of Physics
Delve into the world of quantum field theory, gauge symmetry, Higgs mechanism, electroweak theory, and more with this detailed overview of the Standard Model. Explore classical mechanics, Noether's theorem, relativistic mechanics, quantum mechanics, and quantum field theory concepts. Discover how th
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Insights into Top Quark EW Coupling Precision Measurement
Exciting images and information about top quark EW coupling precision measurement by Mustapha BIYABI on March 11, 2024. Explore 2D plots of top and topbar mass, boosted decision trees for analyzing signal efficiency, kinematic fitting results, lepton energy outcomes, Z boson mass measurement variati
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High-Power Targets for Muon and Neutrino Production
Colin Johnson advocated for a mercury jet target as the next step for muon production post-ACOL. Current studies focus on a carbon target with proton beam parameters optimized for muon generation. Carlo Rubbia discussed a potential Muon-Collider Higgs Factory concept at CERN, sparking debate on muon
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Constraints on Top EW Couplings: Workshop on Top Physics at the LC
Workshop on Top Physics at the LC in Paris discussed present and future constraints on top electroweak couplings. The talk indicated how constraints from previous measurements at LEP, Tevatron, and SLC impact realistic expectations. Composite models like Little Higgs play a significant role in top q
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Measurement of Higgs Boson Yukawa Couplings and Branching Fractions in CEPC Experiment
The study focuses on measuring the Yukawa couplings between the Higgs boson and Standard Model fermions to understand fermions' masses and potential deviations indicating new physics. The analysis aims to measure Higgs decays to bb, cc, and gg at the CEPC experiment through event selection criteria,
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Search for Low-Mass Resonance in Diphotons with CMS
A search for a standard model-like Higgs boson in the mass range of 70-110 GeV in diphoton final states in proton-proton collisions at √s = 13 TeV using Full LHC Run 2 data was conducted by Suzanne Gascon-Shotkin and the CMS Collaboration. Motivated by previous results and theoretical models, the
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Overview of Leptogenesis and Dark Matter Study
This study delves into the intriguing connection between leptogenesis and dark matter, exploring the model, Higgs potential, CP asymmetry, decay parameters, washout effects, parameter space, and constraints. The research sheds light on the interplay between these two fundamental aspects of particle
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Latest Update from Higgs Working Group Meeting - September 10th, 2010
Discussion highlights from the Higgs Working Group Meeting on September 10th, 2010, include menu approvals for data taking, introduction of new chains, issues with presampler noise affecting trigger rates, validation of jet chains, and optimization of tau chains. Updates on beam conditions, luminosi
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Collective Effects in High-Energy Physics Facilities
Collective effects play a crucial role in Higgs factories and high-energy physics facilities. Impedance effects are proportional to beam-induced voltage, with peak bunch current impacting SB effects and average current affecting MB effects. Factors like beam loading compensation and detuning of the
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Exploring Elementary Particles and Their Interactions in Nuclear and Particle Physics
Delve into the fascinating world of elementary particles, where quarks form the basis of protons and neutrons in the nucleus, alongside electrons. Discover a diverse array of particles such as muons, neutrinos, and quarks, each with unique properties of charge and mass. Uncover the significance of t
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ATLAS Physics Research Updates and Discoveries at INFN Roma Tre
Explore the latest advancements in ATLAS physics research conducted at INFN Roma Tre, including insights into Higgs boson production, multilepton final states in ttH searches, Run1 paper results, and expectations for VH(WW) in Run2. Discover the innovative techniques used for signal/background discr
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Unraveling Collider Physics: Investigations, Interpretations, and Accelerations
Dive into the world of collider physics with a focus on LHC results, future collider projects, and experiments from the Baikal Summer School 2021. Explore topics like invariant mass calculations, Higgs boson decays, particle acceleration in the LHC tunnel, and particle velocity considerations. Engag
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Particle Physics Quiz - Test Your Knowledge of the Universe!
Engage in a thrilling particle physics quiz with 7 questions to challenge your knowledge! From understanding mass to energy levels and particle interactions, test your skills and learn fascinating facts. Tick off energy steps for each correct answer as you explore the mysteries of the universe. Expl
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