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31	Quarks and antiquarks in nuclei / Smith, Jason, January 2005 (has links) Thesis (Ph. D.)--University of Washington, 2005. / Vita. Includes bibliographical references (p. 61-68).
32	A study of heavy quark production and semi-leptonic decay in deep-inelastic ep scattering at high energies Patel, Sunil January 2007 (has links) No description available. 539.7
33	Analýza volné produkce charm kvarku v difrakční fotoprodukci s elastickým protonem v koncovém stavu na HERA / Analysis of Diffractive Open Charm Photoproduction with a Leading Proton at HERA Jansová, Markéta January 2015 (has links) The diffractive open charm production is studied using data from 2006-2007, when the leading proton measurement by H1 Very Forward Proton Spectrometer was provided. The charm production is tagged by the decay products of D∗ meson. The cross section of e+ p → e+ D∗ X p in photoproduction regime defined by the value of virtuality Q2 < 2 GeV is determined and corrected for the detector effects. The diffractive D∗ meson photoproduction cross section is compared with the hadron level MC Rapgap prediction based on diffractive parton distribution functions extracted from inclusive ep DIS measurements. Measurement of leading proton provides a unique opportunity to investigate the response of forward detectors for the diffractive events. Using such events, the performance of the large rapidity gap selection is examined.
34	Using the R-Function to Study the High-Resolution Spectrometer (HRS) Acceptance for the 12 GeV Era Experiment E12-06-114 at JLAB Hamad, Gulakhshan M. January 2017 (has links) No description available. Physics Nuclear Physics High Resolution Spectrometer R-Function Jefferson Lab Deep Inelastic scattering
35	The Measurement of the Quasi Elastic Neutrino Nucleon Scattering Cross Section at the Tevatron Suwonjandee, Narumon 31 March 2004 (has links) No description available. quasi-elastic resonances higher twist deep inelastic neutrino-nucleon scattering cross section
36	Search for Contact Interactions in Deep Inelastic Scattering at Zeus Gilmore, Jason R. 11 October 2001 (has links) No description available. Deep Inelastic Scattering contact interaction effective mass scale ZEUS limits lower bounds
37	Measurement and phenomenology of the proton structure function Fâ†2 using the 1996 and 1997 ZEUS data at HERA Ruske, Olaf Christian January 2000 (has links) No description available. 539.7
38	Reggeons in pQCD Griffiths, Scott January 1999 (has links) No description available. 539.72
39	Aprecision measurement of the proton structure function F 2 with the H1 experiment Kretzschmar, Jan 11 April 2008 (has links) Der H1 Detektor ist eines der komplexen Messinstrumente am HERA Beschleuniger. Er wurde gebaut, um die Wechselwirkung von Elektronen und Protonen bei höchsten Schwerpunktenergien von bis zu 320 GeV zu untersuchen. Ein Hauptthema ist die Bestimmung der Protonstruktur mit der bestmöglichen Genauigkeit über die Messung des inklusiven tiefinelastischen Wirkungsquerschnitt als Funktion der kinematischen Variablen x und Q2. In dieser Arbeit wird eine neue Messung des tiefinelastischen Wirkungsquerschnitt vorgestellt. Dazu werden Daten analysiert, welche im Jahre 2000 aufgezeichnet wurden. Die Messung ist beschränkt auf den Bereich mittlerer und niedriger Inelastizität y. In diesem Bereich ist die Messung des reduzierten Wirkungsquerschnittes fast identisch mit der Protonstrukturfunktion F2. Die Messung erstreckt sich über etwa eine Größenordnung in der Photon-Virtualität, 10 < Q2 < 180 GeV2, und drei Größenordnungen in der Bjorken Skalenvariable, 0.00013 < x < 0.15. Die Genauigkeit ist durch systematische Unsicherheiten limitiert. Im Vergleich zu den publizierten Ergebnissen mit den Daten aus den Jahren 1996/97 konnten diese Unsicherheiten signifikant reduziert werden. Die Fehler der neuen Messung liegen meist im Bereich von 1,3 - 2,0%, was eine Verbesserung um ca. 30% gegenüber früheren Resultaten darstellt. Keiner der systematischen Effekte dominiert die Unsicherheiten für die Mehrzahl der Messpunkte. Ein unerwartetes Ergebnis ist die signifikante Abweichung der neuen Messung von der publizierten. Eine neue Analyse der alten Daten zeigt, dass diese Diskrepanz nicht in den Daten selbst liegt. Es wird weiterhin gezeigt, dass Annahmen über die simulierten Ereignisdaten, welche für die Analyse der alten Daten verwendet wurden, falsch waren. Der Effekt ist eine um bis zu 3% falsche Messung. Nach einer Korrektur dieses Effektes stimmen die alte und die neue Messung unter Berücksichtigung ihrer Unsicherheiten miteinander überein. / The H1 detector at the HERA collider is a complex device to study the interactions of electrons and protons at a centre of mass energy of 320 GeV. One of the main goals is to determine the sub structure of the proton with the best possible precision by measuring the inclusive Deep Inelastic Scattering cross section as a function of the kinematic variables Q2 and x. This work presents a new measurement of the inclusive Deep Inelastic $ep$ Scattering cross section using the data taken with the H1 experiment in the year 2000. The measurement is restricted to the region of low and intermediate inelasticities y. In this domain the reduced cross section is mostly identical to the proton structure function F2. About one order of magnitude in the photon virtuality, 10 < Q2 < 180 GeV2, and three orders of magnitude in the Bjorken scaling variable, 0.00013 < x < 0.15, are covered. The accuracy in this range is limited by systematic uncertainties. Compared to the published results using the data from the years 1996/97, these uncertainties are reduced by a significant amount and a self consistent measurement is presented. The errors of the new measurement are typically in the range of 1.3 - 2.0%, which means a 30% improvement over the previously published results. None of the considered systematic error sources dominates the total uncertainty in the bulk of the measurement. An unexpected but nevertheless very important result is the observed discrepancy of the measurement to the previously published H1 results. A new analysis of the older data shows, that the data sets themselves are not responsible for this. It is also found, that assumptions made for the simulated event sample were wrong and therefore the published cross section measurement is biased by up to 3%. An approximate correction of the published data leads to a reasonable agreement of the old and the new measurement within their respective uncertainties. Protonstruktur F2 tief-inelastische Streuung H1 Proton Structure F2 Deep-Inelastic Scattering H1 530 Physik 29 Physik, Astronomie ddc:530
40	Measurement of Single Spin Asymmetries in Semi-Inclusive Deep Inelastic Scattering Reaction n↑(e, éπ+)X at Jefferson Lab Allada, Kalyan C. 01 January 2010 (has links) What constitutes the spin of the nucleon? The answer to this question is still not completely understood. Although we know the longitudinal quark spin content very well, the data on the transverse quark spin content of the nucleon is still very sparse. Semi-inclusive Deep Inelastic Scattering (SIDIS) using transversely polarized targets provide crucial information on this aspect. The data that is currently available was taken with proton and deuteron targets. The E06-010 experiment was performed at Jefferson Lab in Hall-A to measure the single spin asymmetries in the SIDIS reaction n↑(e,éπ±/K±)X using transversely polarized 3He target. The experiment used the continuous electron beam provided by the CEBAF accelerator with a beam energy of 5.9 GeV. Hadrons were detected in a high-resolution spectrometer in coincidence with the scattered electrons detected by the BigBite spectrometer. The kinematic coverage focuses on the valence quark region, x = 0.19 to 0.34, at Q2 = 1.77 to 2.73 (GeV/c)2. This is the first measurement on a neutron target. The data from this experiment, when combined with the world data on the proton and the deuteron, will provide constraints on the transversity and Sivers distribution functions on both the u and d-quarks in the valence region. In this work we report on the single spin asymmetries in the SIDIS n↑(e,éπ+)X reaction. Single-Spin Asymmetries; Helium-3 Neutron Transversity Sivers Function Semi-Inclusive Deep Inelastic Scattering Other Physical Sciences and Mathematics

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