F. R. Wesselmann scite author profile

New Jefferson Lab data are presented on the nuclear dependence of the inclusive cross section from (2)H, (3)He, (4)He, (9)Be and (12)C for 0.3 < x < 0.9, Q(2) approximately 3-6 GeV(2). These data represent the first measurement of the EMC effect for (3)He at large x and a significant improvement for (4)He. The data do not support previous A-dependent or density-dependent fits to the EMC effect and suggest that the nuclear dependence of the quark distributions may depend on the local nuclear environment.

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New Measurements of High-Momentum Nucleons and Short-Range Structures in Nuclei

Fomin¹,

Arrington²,

Asaturyan³

et al. 2012

Phys. Rev. Lett.

179

237

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Precision Determination of the Neutron Spin Structure Functiong1n

Abe¹,

Akagi²,

Anderson³

et al. 1997

Phys. Rev. Lett.

351

154

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Precision measurement of the proton and deuteron spin structure functions g2 and asymmetries A2

et al. 2003

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We have measured the spin structure functions g p 2 and g d 2 and the virtual photon asymmetries A p 2 and A d 2 over the kinematic range 0.02 ≤ x ≤ 0.8 and 0.7 ≤ Q 2 ≤ 20 GeV 2 by scattering 29.1 and 32.3 GeV longitudinally polarized electrons from transversely polarized NH3 and 6 LiD targets. Our measured g2 approximately follows the twist-2 Wandzura-Wilczek calculation. The twist-3 reduced matrix elements d p 2 and d n 2 are less than two standard deviations from zero. The data are inconsistent with the Burkhardt-Cottingham sum rule if there is no pathological behavior as x → 0. The Efremov-Leader-Teryaev integral is consistent with zero within our measured kinematic range. The absolute value of A2 is significantly smaller than the A2 < R(1 + A1)/2 limit.

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

Puckett¹,

Brash²,

Jones³

et al. 2010

Phys. Rev. Lett.

252

140

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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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F. R. Wesselmann

New Measurements of the European Muon Collaboration Effect in Very Light Nuclei

New Measurements of High-Momentum Nucleons and Short-Range Structures in Nuclei

Precision Determination of the Neutron Spin Structure Functiong1n

Precision measurement of the proton and deuteron spin structure functions g2 and asymmetries A2

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

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