C. W. de Jager scite author profile

The protons and neutrons in a nucleus can form strongly correlated nucleon pairs. Scattering experiments, where a proton is knocked-out of the nucleus with high momentum transfer and high missing momentum, show that in 12 C the neutron-proton pairs are nearly twenty times as prevalent as proton-proton pairs and, by inference, neutron-neutron pairs. This difference between the types of pairs is due to the nature of the strong force and has implications for understanding cold dense nuclear systems such as neutron stars.

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Nuclear charge- and magnetization-density-distribution parameters from elastic electron scattering

Jager¹,

Vries²,

Vries³

1974

Atomic Data and Nuclear Data Tables

1,381

407

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Basic instrumentation for Hall A at Jefferson Lab

Alcorn

Anderson

Aniol

et al. 2004

Nuclear Instruments and Methods in Physics Research Section A:

281

377

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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.
623
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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Search for a New Gauge Boson in Electron-Nucleus Fixed-Target Scattering by the APEX Experiment

Abrahamyan¹,

Ahmed²,

Allada³

et al. 2011

Phys. Rev. Lett.

282

245

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We present a search at the Jefferson Laboratory for new forces mediated by sub-GeV vector bosons with weak coupling α' to electrons. Such a particle A' can be produced in electron-nucleus fixed-target scattering and then decay to an e + e- pair, producing a narrow resonance in the QED trident spectrum. Using APEX test run data, we searched in the mass range 175-250 MeV, found no evidence for an A'→ e+ e- reaction, and set an upper limit of α'/α ~/= 10(-6). Our findings demonstrate that fixed-target searches can explore a new, wide, and important range of masses and couplings for sub-GeV forces.

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Flavor Decomposition of the Elastic Nucleon Electromagnetic Form Factors

et al. 2011

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The u- and d-quark contributions to the elastic nucleon electromagnetic form factors have been determined by using experimental data on G(E)(n), G(M)(n), G(E)(p), and G(M)(p). Such a flavor separation of the form factors became possible up to negative four-momentum transfer squared Q(2) = 3.4 GeV(2) with recent data on G(E)(n) from Hall A at Jefferson Lab. For Q(2) above 1 GeV(2), for both the u and the d quark, the ratio of the Pauli and Dirac form factors, F(2)/F(1), was found to be almost constant in sharp contrast to the behavior of F(2)/F(1) for the proton as a whole. Also, again for Q(2)>1 GeV(2), both F(2)(d) and F(1)(d) are roughly proportional to 1/Q(4), whereas the dropoff of F(2)(u) and F(1)(u) is more gradual.

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Publisher's Note: Proton elastic form factor ratios toQ2=3.5GeV2by polarization transfer [Phys. Rev. C 71, 055202 (2005)]

Punjabi¹,

Perdrisat²,

Aniol³

et al. 2005

Phys. Rev. C

171

182

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C. W. de Jager

Nuclear charge-density-distribution parameters from elastic electron scattering

Probing Cold Dense Nuclear Matter

Nuclear charge- and magnetization-density-distribution parameters from elastic electron scattering

Basic instrumentation for Hall A at Jefferson Lab

Measurement ofGEp/GMp
Gayou¹,
Aniol²,
Averett³
et al. 2002
Phys. Rev. Lett.
623
18
351
3
View full text Add to dashboard Cite

Search for a New Gauge Boson in Electron-Nucleus Fixed-Target Scattering by the APEX Experiment

Flavor Decomposition of the Elastic Nucleon Electromagnetic Form Factors

Publisher's Note: Proton elastic form factor ratios toQ2=3.5GeV2by polarization transfer [Phys. Rev. C 71, 055202 (2005)]

Contact Info

Product

Resources

About

C. W. de Jager

Nuclear charge-density-distribution parameters from elastic electron scattering

Probing Cold Dense Nuclear Matter

Nuclear charge- and magnetization-density-distribution parameters from elastic electron scattering

Basic instrumentation for Hall A at Jefferson Lab

Measurement ofGEp/GMpGayou1, Aniol2, Averett3 et al. 2002Phys. Rev. Lett.623183513View full textAdd to dashboardCite

Search for a New Gauge Boson in Electron-Nucleus Fixed-Target Scattering by the APEX Experiment

Flavor Decomposition of the Elastic Nucleon Electromagnetic Form Factors

Publisher's Note: Proton elastic form factor ratios toQ2=3.5GeV2by polarization transfer [Phys. Rev. C 71, 055202 (2005)]

Contact Info

Product

Resources

About

Measurement ofGEp/GMp
Gayou¹,
Aniol²,
Averett³
et al. 2002
Phys. Rev. Lett.
623
18
351
3
View full text Add to dashboard Cite