O. Gayou scite author profile

The instrumentation in Hall A at the Thomas Jefferson National Accelerator Facility was designed to study electro-and photo-induced reactions at very high luminosity and good momentum and angular resolution for at least one of the reaction products. The central components of Hall A are two identical high resolution spectrometers, which allow the vertical drift chambers in the focal plane to provide a momentum resolution of better than 2 x 10(-4). A variety of Cherenkov counters, scintillators and lead-glass calorimeters provide excellent particle identification. The facility has been operated successfully at a luminosity well in excess of 10(38) CM-2 s(-1). The research program is aimed at a variety of subjects, including nucleon structure functions, nucleon form factors and properties of the nuclear medium. (C) 2003 Elsevier B.V. All rights reserved

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Measurement ofGEp/GMp
Gayou¹,
Aniol²,
Averett³
et al. 2002
Phys. Rev. Lett.
630
18
351
3
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The ratio of the electric and magnetic form factors of the proton G(E(p))/G(M(p)), which is an image of its charge and magnetization distributions, was measured at the Thomas Jefferson National Accelerator Facility (JLab) using the recoil polarization technique. The ratio of the form factors is directly proportional to the ratio of the transverse to longitudinal components of the polarization of the recoil proton in the elastic e(-->)p---> e(-->)p reaction. The new data presented span the range 3.5< Q(2)< 5.6 GeV(2) and are well described by a linear Q(2) fit. Also, the ratio sqrt[Q(2)] F(2(p))/F(1(p)) reaches a constant value above Q(2) = 2 GeV(2).

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Precision Rosenbluth Measurement of the Proton Elastic Form Factors

Qattan¹,

Arrington²,

Segel³

et al. 2005

Phys. Rev. Lett.

286

283

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We report the results of a new Rosenbluth measurement of the proton electromagnetic form factors at Q2 values of 2.64, 3.20, and 4.10 GeV2. Cross sections were determined by detecting the recoiling proton, in contrast to previous measurements which detected the scattered electron. Cross sections were determined to 3%, with relative uncertainties below 1%. The ratio mu(p)G(E)/G(M) was determined to 4%-8% and showed mu(p)G(E)/G(M) approximately 1. These results are consistent with, and much more precise than, previous Rosenbluth extractions. They are inconsistent with recent polarization transfer measurements of similar precision, implying a systematic difference between the techniques.

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Final analysis of proton form factor ratio data atQ2=4.0, 4.8, and 5.6 GeV2

Puckett¹,

Brash²,

Gayou³

et al. 2012

Phys. Rev. C

164

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Precise measurements of the proton electromagnetic form factor ratio R = µpG p E /G p M using the polarization transfer method at Jefferson Lab have revolutionized the understanding of nucleon structure by revealing the strong decrease of R with momentum transfer Q 2 for Q 2 1 GeV 2 , in strong disagreement with previous extractions of R from cross section measurements. In particular, the polarization transfer results have exposed the limits of applicability of the one-photon-exchange approximation and highlighted the role of quark orbital angular momentum in the nucleon structure. The GEp-II experiment in Jefferson Lab's Hall A measured R at four Q 2 values in the range 3.5 GeV 2 ≤ Q 2 ≤ 5.6 GeV 2 . A possible discrepancy between the originally published GEp-II results and more recent measurements at higher Q 2 motivated a new analysis of the GEp-II data. This article presents the final results of the GEp-II experiment, including details of the new analysis, an expanded description of the apparatus and an overview of theoretical progress since the original publication. The key result of the final analysis is a systematic increase in the results for R, improving the consistency of the polarization transfer data in the high-Q 2 region. This increase is the result of an improved selection of elastic events which largely removes the systematic effect of the inelastic contamination, underestimated by the original analysis. * Corresponding author: puckett@jlab.org 2

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Measurements of the elastic electromagnetic form factor ratioμpGEp/GMp
Gayou¹,
Wijesooriya²,
Afanasev³
et al. 2001
Phys. Rev. C
261
6
140
1
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We present measurements of the ratio of the proton elastic electromagnetic form factors, p G Ep /G M p . The Jefferson Lab Hall A Focal Plane Polarimeter was used to determine the longitudinal and transverse components of the recoil proton polarization in ep elastic scattering; the ratio of these polarization components is proportional to the ratio of the two form factors. These data reproduce the observation of Jones et al. ͓Phys. Rev. Lett. 84, 1398 ͑2000͔͒, that the form factor ratio decreases significantly from unity above Q 2 ϭ1 GeV 2 .

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O. Gayou

Basic instrumentation for Hall A at Jefferson Lab

Measurement ofGEp/GMp
Gayou¹,
Aniol²,
Averett³
et al. 2002
Phys. Rev. Lett.
630
18
351
3
View full text Add to dashboard Cite

Precision Rosenbluth Measurement of the Proton Elastic Form Factors

Final analysis of proton form factor ratio data atQ2=4.0, 4.8, and 5.6 GeV2

Measurements of the elastic electromagnetic form factor ratioμpGEp/GMp
Gayou¹,
Wijesooriya²,
Afanasev³
et al. 2001
Phys. Rev. C
261
6
140
1
View full text Add to dashboard Cite

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O. Gayou

Basic instrumentation for Hall A at Jefferson Lab

Measurement ofGEp/GMpGayou1, Aniol2, Averett3 et al. 2002Phys. Rev. Lett.630183513View full textAdd to dashboardCite

Precision Rosenbluth Measurement of the Proton Elastic Form Factors

Final analysis of proton form factor ratio data atQ2=4.0, 4.8, and 5.6 GeV2

Measurements of the elastic electromagnetic form factor ratioμpGEp/GMpGayou1, Wijesooriya2, Afanasev3 et al. 2001Phys. Rev. C26161401View full textAdd to dashboardCite

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Measurement ofGEp/GMp
Gayou¹,
Aniol²,
Averett³
et al. 2002
Phys. Rev. Lett.
630
18
351
3
View full text Add to dashboard Cite

Measurements of the elastic electromagnetic form factor ratioμpGEp/GMp
Gayou¹,
Wijesooriya²,
Afanasev³
et al. 2001
Phys. Rev. C
261
6
140
1
View full text Add to dashboard Cite