Bingcheng Hu scite author profile

Among the most fundamental observables of nucleon structure, electromagnetic form factors are a crucial benchmark for modern calculations describing the strong interaction dynamics of the nucleon's quark constituents; indeed, recent proton data have attracted intense theoretical interest. In this Letter, we report new measurements of the proton electromagnetic form factor ratio using the recoil polarization method, at momentum transfers Q2=5.2, 6.7, and 8.5 GeV2. By extending the range of Q2 for which G(E)(p) is accurately determined by more than 50%, these measurements will provide significant constraints on models of nucleon structure in the nonperturbative regime.

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Search for Effects Beyond the Born Approximation in Polarization Transfer Observables ine→pElastic Scattering

Meziane¹,

Ej²,

Gilman³

et al. 2011

Phys. Rev. Lett.

114

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Intensive theoretical and experimental efforts over the past decade have aimed at explaining the discrepancy between data for the proton electric to magnetic form factor ratio, G(E)/G(M), obtained separately from cross section and polarization transfer measurements. One possible explanation for this difference is a two-photon-exchange contribution. In an effort to search for effects beyond the one-photon-exchange or Born approximation, we report measurements of polarization transfer observables in the elastic H(e[over →],e(')p[over →]) reaction for three different beam energies at a Q(2)=2.5 GeV(2), spanning a wide range of the kinematic parameter ε. The ratio R, which equals μ(p)G(E)/G(M) in the Born approximation, is found to be independent of ε at the 1.5% level. The ε dependence of the longitudinal polarization transfer component P(ℓ) shows an enhancement of (2.3±0.6)% relative to the Born approximation at large ε.

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Measurements ofGEn/GMnfrom theH2
Madey¹,
Ay²,
Taylor³
et al. 2003
Phys. Rev. Lett.

161

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We report new measurements of the ratio of the electric form factor to the magnetic form factor of the neutron, G n E /G n M , obtained via recoil polarimetry from the quasielastic 2 H( e, e ′ n) 1 H reaction at Q 2 values of 0.45, 1.13, and 1.45 (GeV/c) 2 with relative statistical uncertainties of 7.6 and 8.4% at the two higher Q 2 points, which were not reached previously via polarization measurements. Scale and systematic uncertainties are small.

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Proton Spin Structure in the Resonance Region

Wesselmann¹,

Slifer²,

Tajima³

et al. 2007

Phys. Rev. Lett.

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Measurement of theHe3(e,e′p)pnReac

Benmokhtar¹,

Rvachev²,

Penel-Nottaris³

et al. 2005

Phys. Rev. Lett.

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Results of the Jefferson Lab Hall A quasielastic 3He(e,e'p)pn measurements are presented. These measurements were performed at fixed transferred momentum and energy, q=1502 MeV/c and omega=840 MeV, respectively, for missing momenta p(m) up to 1 GeV/c and missing energies in the continuum region, up to pion threshold; this kinematic coverage is much more extensive than that of any previous experiment. The cross section data are presented along with the effective momentum density distribution and compared to theoretical models.

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ProtonGE/GMfrom beam-target asymmetry

Jones¹,

Aghalaryan²,

Ahmidouch³

et al. 2006

Phys. Rev. C

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Polarization Transfer in theHe4(e→,e′p
Strauch¹,
Dieterich²,
Aniol³
et al. 2003
Phys. Rev. Lett.
121
3
46
0
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We have measured the proton recoil polarization in the 4He(e-->,e(')p-->)4H reaction at Q(2)=0.5, 1.0, 1.6, and 2.6 (GeV/c)(2). The measured ratio of polarization transfer coefficients differs from a fully relativistic calculation, favoring the inclusion of a medium modification of the proton form factors predicted by a quark-meson coupling model. In addition, the measured induced polarizations agree reasonably well with the fully relativistic calculation indicating that the treatment of final-state interactions is under control.

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A Symmetric Co(N₅)₂(H₂O)₄⋅4 H₂O High‐Nitrogen Compound Formed by Cobalt(II) Cation Trapping of a Cyclo‐N₅⁻ Anion

et al. 2017

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The reactions of (N ) (H O) (NH ) Cl with Co(NO ) ⋅6 H O at room temperature yielded Co(N ) (H O) ⋅4 H O as an air-stable orange metal complex. The structure, as determined by single-crystal X-ray diffraction, has two planar cyclo-N rings and four bound water molecules symmetrically positioned around the central metal ion. Thermal analysis demonstrated the explosive properties of the material.

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Bingcheng Hu

Recoil Polarization Measurements of the Proton Electromagnetic Form Factor Ratio toQ2=8.5 GeV2

Search for Effects Beyond the Born Approximation in Polarization Transfer Observables ine→pElastic Scattering

Measurements ofGEn/GMnfrom theH2
Madey¹,
Ay²,
Taylor³
et al. 2003
Phys. Rev. Lett.

Proton Spin Structure in the Resonance Region

Measurement of theHe3(e,e′p)pnReac

ProtonGE/GMfrom beam-target asymmetry

Polarization Transfer in theHe4(e→,e′p
Strauch¹,
Dieterich²,
Aniol³
et al. 2003
Phys. Rev. Lett.
121
3
46
0
View full text Add to dashboard Cite

A Symmetric Co(N₅)₂(H₂O)₄⋅4 H₂O High‐Nitrogen Compound Formed by Cobalt(II) Cation Trapping of a Cyclo‐N₅⁻ Anion

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Bingcheng Hu

Recoil Polarization Measurements of the Proton Electromagnetic Form Factor Ratio toQ2=8.5 GeV2

Search for Effects Beyond the Born Approximation in Polarization Transfer Observables ine→pElastic Scattering

Measurements ofGEn/GMnfrom theH2Madey1, Ay2, Taylor3 et al. 2003Phys. Rev. Lett.

Proton Spin Structure in the Resonance Region

Measurement of theHe3(e,e′p)pnReac

ProtonGE/GMfrom beam-target asymmetry

Polarization Transfer in theHe4(e→,e′pStrauch1, Dieterich2, Aniol3 et al. 2003Phys. Rev. Lett.1213460View full textAdd to dashboardCite

A Symmetric Co(N5)2(H2O)4⋅4 H2O High‐Nitrogen Compound Formed by Cobalt(II) Cation Trapping of a Cyclo‐N5− Anion

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Measurements ofGEn/GMnfrom theH2
Madey¹,
Ay²,
Taylor³
et al. 2003
Phys. Rev. Lett.

Polarization Transfer in theHe4(e→,e′p
Strauch¹,
Dieterich²,
Aniol³
et al. 2003
Phys. Rev. Lett.
121
3
46
0
View full text Add to dashboard Cite

A Symmetric Co(N₅)₂(H₂O)₄⋅4 H₂O High‐Nitrogen Compound Formed by Cobalt(II) Cation Trapping of a Cyclo‐N₅⁻ Anion