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The K0s is the neutral strange particle due to the presence of strange quark content. These strange particles are generally produced in strong interaction and decay through weak interaction. Using the DPMJET hadron production model, p+p interactions was simulated using +85GeV/c beam energy through the Time Projection Chamber. This K0s particles were reconstructed using the V0-Finder algorithm and the efficiency of this algorithm was 40%. All the correction/Efficiencies were determined using the DPMJET model. In the present work, K0s production cross-section in bins of pt2 using Proton-Proton interactions at 85 GeV/c energy using DPMJET model was studied. This analysis and results will be used for data analysis at MIPP experiment at Fermilab.
The associated production of a W boson and a single charm quark (W+c) is the only process in proton-proton collisions that directly probes the strange quark content of the proton. In this thesis, W+charm production is measured in proton-proton collisions at the LHC at 13 TeV, as recorded by the Compact Muon Solenoid (CMS) experiment. The analysis focuses on the identification of W bosons in their leptonic decay to a muon and a neutrino and charm quarks are tagged via the full reconstruction of D*-Mesons. The measured cross sections of W+c production are used, in combination with other relevant CMS results and the most precise HERA DIS data, in a QCD analysis to determine the strange quark content of the proton. The resulting strange quark distribution and suppression, with respect to the other light sea quarks, are in good agreement with those obtained in neutrino scattering experiments and extend their kinematic reach.
A primer on the evolution of particle physics and the search for the fundamental building blocks of matter, this book presents the full current body of understanding of particle physics in a way that is accessible to readers with some basic principles of physics. This concise book tells the fascinating story of how 20th century physicists revealed layer upon layer of structure within the atom to reach the basic particles of matter, and culminates in descriptions of current theories which form the Standard Model and the discovery of the top quark. It contains many illustrations and photographs, including the famous "Particle Chart", and integrates the stories of the individual scientists throughout. The book is a collaboration among eminent physicists at LBL, CERN and high school teachers to develop a novel book for teaching particle physics to students. It can thus be used as a supplement for courses in advanced high school and physics courses.
This is the third edition of a text that is already well established as one of the standard undergraduate books on the subject of elementary particle physics. Professor Hughes has updated the whole text in line with current particle nomenclature and has added material to cover important new developments. There is also a completely new major chapter on particle physics and cosmology, an exciting subject that has become an area of increasing importance in recent years. In this field much can be learned from the way the subject has developed, and so, where this helps its understanding, a historical treatment is used. Unlike other texts on this subject, at all stages the author closely links theoretical developments to the relevant experimental measurements, providing a sound foundation to what might otherwise be a rather abstract subject. He also provides historical background where it will aid comprehension of the material.