Precision Measurement Of Neutron Spin Asymmetry A1n At Large Xsub Bj Using Cebaf At 57 Gev PDF Download
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| Release | : 2002 |
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Download Precision Measurement of Neutron Spin Asymmetry A1n at Large X{sub Bj} Using CEBAF at 5.7 GeV. Book in PDF, ePub and Kindle
This dissertation will first give an introduction to the theories and formalism of polarized deep inelastic scattering and a review of the theories of A1n. Next the experiment E99-117 at JLab Hall A will be described, followed by the data analysis. The data presented greatly improve the current world fit of neutron polarized structure functions and provide valuable insight in the understanding of the neutron spin structure.
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| Total Pages | : 234 |
| Release | : 2002 |
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Download Precision Measurement of Neutron Spin Asymmetry A$n\atop{1}$ at Large Xbj Using CEBAF at 5.7 GeV. Book in PDF, ePub and Kindle
This dissertation will first give an introduction to the theories and formalism of polarized deep inelastic scattering and a review of the theories of A$n\atop{1}$. Next the experiment E99-117 at JLab Hall A will be described, followed by the data analysis. The data presented greatly improve the current world fit of neutron polarized structure functions and provide valuable insight in the understanding of the neutron spin structure.
| Author | : Xiaochao Zheng |
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| Total Pages | : 276 |
| Release | : 2002 |
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Download Precision Measurement of Neutron Spin Asymmetry An1 at Large XBj Using CEBAF at 5.7 GeV Book in PDF, ePub and Kindle
(Cont.) Combined with world fit of proton gP1/Ff1 data and the quark distribution ratio d/u, the polarized quark distributions ... have been obtained from gn1/Fn1 data. Results of ... at all three XBj points are negative, in disagreement with the predictions from pQCD based hadron helicity conservation. This dissertation will first give an introduction to the theories and formalism of polarized deep inelastic scattering and a review of the theories of An1. Next the experiment E99-117 at JLAB Hall A will be described, followed by the data analysis which yields results for ... The data presented greatly improve the current world fit of neutron polarized structure functions and provide valuable insight in the understanding of the neutron spin structure.
| Author | : Melanie Leigh Cardona |
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| Total Pages | : 0 |
| Release | : 2023 |
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Download Measuring the Neutron Spin Asymmetry A1n in the Valence Quark Region in Hall C at Jefferson Lab Book in PDF, ePub and Kindle
The quest to understand how the nucleon spin is decomposed into its constituent quark and gluon spin and orbital angular momentum (OAM) components has been at the forefront of nuclear physics for decades. Due to the non-perturbative nature of Quantum Chromodynamics (QCD) - the theory describing how quarks and gluons bind together to form protons and neutrons - making absolute predictions of nucleon spin structure is generally difficult, especially as a function of its quark and gluon longitudinal momentum fraction x. Measurements involving nucleon spin structure serve as a sensitive test for QCD, including ab-initio lattice QCD calculations due to the advent of the quasi-PDF formalism, and various predictions that diverge at large-x. The neutron spin asymmetry A1n at high-x is a key observable for probing nucleon spin structure. In the valence domain (x > 0.5), sea effects are expected to be negligible, and so the total nucleon spin is considered to be carried by the valence quarks. The valence region can therefore enable us to study the role of quark OAM and other non-perturbative effects of the strong force. A1^n was measured in the deep inelastic scattering region of 0.40
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| Release | : 2002 |
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Download Precision Measurement of Neutron Asymmetry A1(N) in the Valence Quark Region Book in PDF, ePub and Kindle
We have measured the neutron virtual photon asymmetry A1(superscript n) over the kinematic range 0.33 (less-than or equal to) x (less-than or equal to) 0.61 and 2.8 (less-than or equal to) Q2 (less-than or equal to) 4.8 (GeV/c)2. To extract A1(superscript n), longitudinal and transverse spin asymmetries have been measured for inclusive 3{rvec H}e({rvec e}, e(prime)) scattering, using a 5.7 GeV longitudinally polarized electron beam at Jefferson Lab and a high-density polarized 3He target in Hall A. Preliminary results of A1(superscript n) are presented and compared to existing data and various models, including the predictions of SU(6), broken SU(6) constituent quark models and perturbative QCD based models.
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| Total Pages | : 234 |
| Release | : 2011 |
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Download Measurements of the Double-Spin Asymmetry A1 on Helium-3 Book in PDF, ePub and Kindle
The spin structure of protons and neutrons has been an open question for nearly twenty-five years, after surprising experimental results disproved the simple model in which valence quarks were responsible for nearly 100% of the nucleon spin. Diverse theoretical approaches have been brought to bear on the problem, but a shortage of precise data - especially on neutron spin structure - has prevented a thorough understanding. Experiment E06-014, conducted in Hall A of Jefferson Laboratory in 2009, presented an opportunity to add to the world data set for the neutron in the poorly covered valence-quark region. Jefferson Laboratory's highly polarized electron beam, combined with Hall A's facilities for a high-density, highly polarized 3He target, allowed a high-luminosity double-polarized experiment, while the large acceptance of the BigBite spectrometer gave coverage over a wide kinematic range: 0.15
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| Total Pages | : 339 |
| Release | : 2014 |
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Download Measurements of the Neutron Longitudinal Spin Asymmetry A1n and Flavor Decomposition in the Valence Quark Region Book in PDF, ePub and Kindle
The current data for the nucleon-virtual photon longitudinal spin asymmetry A1 on the proton and neutron have shown that the ratio of the polarized-to-unpolarized down-quarkparton distribution functions, Dd=d, tends towards -1/2 at large x, in disagreement with the perturbative QCD prediction that Dd/d approaches 1 but more in line with constituent quark models. As a part of experiment E06-014 in Hall A of Jefferson Lab, double-spin asymmetries were measured in the scattering of a longitudinally polarized electron beam of energies 4.74 and 5.89 GeV from a longitudinally and transversely polarized 3He target in the deep inelastic scattering and resonance region, allowing for the extraction of the neutron asymmetry An1 and the ratios Dd/d and Du/u. We will discuss our analysis of the data and present results for A1 and g1/F1 on both 3He and the neutron, and the resulting quark ratios for the up and down quarks in the kinematic range of 0.2.
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| Total Pages | : 1 |
| Release | : 2004 |
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Download Precision Measurement of the Neutron Spin Asymmetry A{sub 1}{sup N} and Spin-flavor Decomposition in the Valence Quark Region Book in PDF, ePub and Kindle
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| Total Pages | : 16 |
| Release | : 2011 |
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Download Transverse Spin Structure of the Nucleon Through Target Single Spin Asymmetry in Semi-Inclusive Deep-Inelastic $(e, E^\prime \pi^\pm)$ Reaction at Jefferson Lab Book in PDF, ePub and Kindle
Jefferson Lab (JLab) 12 GeV energy upgrade provides a golden opportunity to perform precision studies of the transverse spin and transverse-momentum-dependent structure in the valence quark region for both the proton and the neutron. In this paper, we focus our discussion on a recently approved experiment on the neutron as an example of the precision studies planned at JLab. The new experiment will perform precision measurements of target Single Spin Asymmetries (SSA) from semi-inclusive electro-production of charged pions from a 40-cm long transversely polarized $^3$He target in Deep-Inelastic-Scattering kinematics using 11 and 8.8 GeV electron beams. This new coincidence experiment in Hall A will employ a newly proposed solenoid spectrometer (SoLID). The large acceptance spectrometer and the high polarized luminosity will provide precise 4-D ($x$, $z$, $P_T$ and $Q^2$) data on the Collins, Sivers, and pretzelocity asymmetries for the neutron through the azimuthal angular dependence. The full 2$\pi$ azimuthal angular coverage in the lab is essential in controlling the systematic uncertainties. The results from this experiment, when combined with the proton Collins asymmetry measurement and the Collins fragmentation function determined from the e$^+$e$^-$ collision data, will allow for a quark flavor separation in order to achieve a determination of the tensor charge of the d quark to a 10% accuracy. The extracted Sivers and pretzelocity asymmetries will provide important information to understand the correlations between the quark orbital angular momentum and the nucleon spin and between the quark spin and nucleon spin.
| Author | : David Flay |
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| Total Pages | : 339 |
| Release | : 2014 |
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Download Measurements of the Neutron Longitudinal Spin Asymmetry A1 and Flavor Decomposition in the Valence Quark Region Book in PDF, ePub and Kindle
The current data for the nucleon-virtual photon longitudinal spin asymmetry A1 on the proton and neutron have shown that the ratio of the polarized-to-unpolarized down-quark parton distribution functions, d/d, tends towards -1/2 at large x, in disagreement with the perturbative QCD prediction that d/d approaches 1 but more in line with constituent quark models. As a part of experiment E06-014 in Hall A of Jefferson Lab, double-spin asymmetries were measured in the scattering of a longitudinally polarized electron beam of energies 4.74 and 5.89 GeV from a longitudinally and transversely polarized 3He target in the deep inelastic scattering and resonance region, allowing for the extraction of the neutron asymmetry A1n and the ratios d/d and u/u. We will discuss our analysis of the data and present results for A1 and g1/F1 on both 3He and the neutron, and the resulting quark ratios for the up and down quarks in the kinematic range of 0.2 2 2 for our deep inelastic scattering data. Invoking duality, we also extract A1n and g1n/F1n in the resonance region, characterized by 0.6 2 2. Our measurements are compared to the world data and various theoretical models and more recent predictions using the Dyson-Schwinger Equation approach. We also present analysis of the unpolarized cross section data, which contributes to the g1 spin structure function and eventually the a2 matrix element, an x2-weighted moment of g1. The extracted a2 data are compared to a Lattice QCD calculation.
