Hadrons - PowerPoint PPT Presentation

Delve into the intricate world of particles and fundamental interactions in the Universe as explained by Professor Emeritus George Lazarides from Aristotle University of Thessaloniki. Discover the structure of matter, classification of particles based on interactions, constituents of hadrons, conser

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The SpaceRadMon-NG is a cutting-edge radiation monitoring device designed for CubeSats, offering advanced capabilities for measuring Total Ionizing Dose (TID) and High Energy Hadrons (HEHs) fluence. Developed as a next-generation solution, it aims to enhance diagnostic and environmental monitoring i

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Explore the phenomena of de-confinement and clustering of color sources in nuclear collisions, revealing the transition to a state where quarks and gluons cannot be confined into color-neutral hadrons. This study delves into the relationship between percolation theory and de-confinement, shedding li

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Multiplicity distributions play a crucial role in understanding the cascade of quarks and gluons at the LHC energies, revealing underlying correlations in particle production. Popular models like Monte Carlo and statistical models are used to describe the charged particle multiplicity distributions.

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Unveiling insights into heavy-ion collisions at CERN's Large Hadron Collider (LHC) through the ALICE experiment. Delving into the status, performance, and initial results, ALICE aims to characterize the medium formed during collisions. With a collaboration of around 1000 members from 31 countries an

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Quark Sivers function, a key aspect in quantum chromodynamics, plays a role in capturing orbital angular momentum and spin-orbit coupling. Spin-dependent Odderon, an elusive three-gluon exchange, contributes to cross sections in high-energy collisions. Small-$? TMDs from polarized Wilson lines provi

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Hadron spectroscopy studies at LHCb focus on searching for new hadrons, measuring their properties like lineshape, lifetime, and decay modes. The LHCb detector is optimized for collecting, reconstructing, and identifying signals to improve knowledge about hadron spectroscopy. Development of data ana

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Delve into the world of exotic glueballs and hadrons through a review of QCD sum rule, investigation of light scalar mesons, and discussion on hadrons with unconventional quantum numbers. Learn about theoretical frameworks and calculations involving correlators, dispersion relations, Borel transform

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Coherent electron cooling experiment at RHIC is led by Vladimir N. Litvinenko with Jean Clifford Brutus as the project manager. The CeC group, consisting of researchers from Brookhaven National Laboratory and Stony Brook University, aims to test various experimental scenarios, including high gain FE

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Anomalous Triangle Singularity (ATS) is explored in the context of threshold phenomena understanding, focusing on its occurrence when all three internal particles are simultaneously on shell. The study delves into kinematic effects, genuine states recognition, and specific cases such as heavy pentaq

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Explore advanced FLUKA in-beam PET simulations and Hadrontherapy activity-based generator for precise treatment planning. Speed up simulations using cloud computing and bias activity-based generators for faster workstation processing. Understand components needed for hadrons treatment simulation, in

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Investigating the effect of HCal resolutions on jet reconstruction in the barrel and electron endcap regions using Delphes simulation. Analyzing jet energy resolution and scale definitions, comparing different models and scenarios, and exploring the impact of including or excluding neutral hadrons i

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Successfully describing the structure of subatomic particles, Quark Model plays a crucial role in understanding hadron properties. The convergence between theoretical predictions and experimental observations is key to advancing the field of Hadron Spectroscopy, particularly in exploring exotic stat

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Recent breakthrough in Regge theory explores photoproduction of hadrons, applying the Regge model to understand scaling with trajectory saturation. The study delves into reaction mechanisms at high energies, introducing gauge and tensor meson exchanges. Analysis includes convergence and dominance of

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In the JETSCAPE Workshop 2019, various hadronization models were explored, including independent fragmentation, string fragmentation, hybrid recombination, and quark recombination. The event delved into colorless and colored hadronization schemes within the framework, discussing processes like pairi

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In this scenario presented by V. Kuksa and V. Beylin from Southern Federal University, various aspects of new quarks, fundamental interactions, heavy quark evolution, and quantum numbers of heavy hadrons are discussed. The presentation delves into the definition of mass of new quarks, effective inte

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Quark Sivers function and spin-dependent Odderon play crucial roles in understanding the three-dimensional structure of hadrons and the asymmetries observed in high-energy scattering processes. Ongoing efforts are focused on determining the small-? asymptotics of these functions and their contributi

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The research delves into the Bc meson, focusing on its distinct signature, which enhances the accuracy of QCD dynamics understanding. With rich decay channels, the Bc meson offers potential for valuable insights. Sum rules are explored for the Bc S(AV)l transition form factors, shedding light on the

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Explore the physics program at CERN's AMBER experiment, investigating the nature of hadrons and the fundamental particles of quantum chromodynamics. Discover the questions surrounding hadron mass and the mechanisms of quarks and gluons in forming stable structures. Join the AMBER collaboration in un

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Explore the world of subatomic particles with topics ranging from quarks and leptons to Feynman diagrams and conservation laws. Dive into the differences between hadrons and leptons, understand the properties of quarks, and discover the intricacies of beta decay and particle interactions.

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