L. Elouadrhiri scite author profile

We present results on the electroexcitation of the low mass resonances (1232)P 33 , N (1440)P 11 , N (1520)D 13 , and N (1535)S 11 in a wide range of Q 2 . The results were obtained in the comprehensive analysis of data from the Continuous Electron Beam Accelerator Facility (CEBAF) large acceptance spectrometer (CLAS) detector at the Thomas Jefferson National Accelerator Facility (JLab) on differential cross sections, longitudinally polarized beam asymmetries, and longitudinal target and beam-target asymmetries for π electroproduction off the proton. The data were analyzed using two conceptually different approaches-fixed-t dispersion relations and a unitary isobar model-allowing us to draw conclusions on the model sensitivity of the obtained electrocoupling amplitudes. The amplitudes for the (1232)P 33 show the importance of a meson-cloud contribution to quantitatively explain the magnetic dipole strength, as well as the electric and scalar quadrupole transitions. They do not show any tendency of approaching the pQCD regime for Q 2 6 GeV 2 . For the Roper resonance, N (1440)P 11 , the data provide strong evidence that this state is a predominantly radial excitation of a three-quark (3q) ground state. Measured in pion electroproduction, the transverse helicity amplitude for the N (1535)S 11 allowed us to obtain the branching ratios of this state to the πN and ηN channels via comparison with the results extracted from η electroproduction. The extensive CLAS data also enabled the extraction of the γ * p → N (1520)D 13 and N (1535)S 11 longitudinal helicity amplitudes with good precision. For the N (1535)S 11 , these results became a challenge for quark models and may be indicative of large meson-cloud contributions or of representations of this state that differ from a 3q excitation. The transverse amplitudes for the N (1520)D 13 clearly show the rapid changeover from helicity-3/2 dominance at the real photon point to helicity-1/2 dominance at Q 2 > 1 GeV 2 , confirming a long-standing prediction of the constituent quark model.

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The pressure distribution inside the proton

Burkert

Elouadrhiri

Girod

2018

Nature

285

313

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The proton, one of the components of atomic nuclei, is composed of fundamental particles called quarks and gluons. Gluons are the carriers of the force that binds quarks together, and free quarks are never found in isolation-that is, they are confined within the composite particles in which they reside. The origin of quark confinement is one of the most important questions in modern particle and nuclear physics because confinement is at the core of what makes the proton a stable particle and thus provides stability to the Universe. The internal quark structure of the proton is revealed by deeply virtual Compton scattering, a process in which electrons are scattered off quarks inside the protons, which subsequently emit high-energy photons, which are detected in coincidence with the scattered electrons and recoil protons. Here we report a measurement of the pressure distribution experienced by the quarks in the proton. We find a strong repulsive pressure near the centre of the proton (up to 0.6 femtometres) and a binding pressure at greater distances. The average peak pressure near the centre is about 10 pascals, which exceeds the pressure estimated for the most densely packed known objects in the Universe, neutron stars . This work opens up a new area of research on the fundamental gravitational properties of protons, neutrons and nuclei, which can provide access to their physical radii, the internal shear forces acting on the quarks and their pressure distributions.

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Momentum sharing in imbalanced Fermi systems

Hen¹,

Sargsian²,

Weinstein³

et al. 2014

Science

276

287

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The atomic nucleus is composed of two different kinds of fermions: protons and neutrons. If the protons and neutrons did not interact, the Pauli exclusion principle would force the majority of fermions (usually neutrons) to have a higher average momentum. Our high-energy electron-scattering measurements using (12)C, (27)Al, (56)Fe, and (208)Pb targets show that even in heavy, neutron-rich nuclei, short-range interactions between the fermions form correlated high-momentum neutron-proton pairs. Thus, in neutron-rich nuclei, protons have a greater probability than neutrons to have momentum greater than the Fermi momentum. This finding has implications ranging from nuclear few-body systems to neutron stars and may also be observable experimentally in two-spin-state, ultracold atomic gas systems.

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The CEBAF large acceptance spectrometer (CLAS)

Mecking

Adams

Ahmad

et al. 2003

Nuclear Instruments and Methods in Physics Research Section A:

525

311

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The CEBAF large acceptance spectrometer (CLAS) is used to study photo- and electro-induced nuclear and hadronic reactions by providing efficient detection of neutral and charged particles over a good fraction of the full solid angle. A collaboration of about 30 institutions has designed, assembled, and commissioned CLAS in Hall B at the Thomas Jefferson National Accelerator Facility. The CLAS detector is based on a novel six-coil toroidal magnet which provides a largely azimuthal field distribution. Trajectory reconstruction using drift chambers results in a momentum resolution of 0.5% at forward angles. Cherenkov counters, time-of-flight scintillators, and electromagnetic calorimeters provide good particle identification. Fast triggering and high data-acquisition rates allow operation at a luminosity of View the MathML source. These capabilities are being used in a broad experimental program to study the structure and interactions of mesons, nucleons, and nuclei using polarized and unpolarized electron and photon beams and targets. This paper is a comprehensive and general description of the design, construction and performance of CLAS

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Measurement of Two- and Three-Nucleon Short-Range Correlation Probabilities in Nuclei

Egiyan¹,

Dashyan²,

Sargsian³

et al. 2006

Phys. Rev. Lett.

265

262

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Measurement of two-and three-nucleon shortrange correlation probabilities in nuclei KS The ratios of inclusive electron scattering cross sections of 4 He, 12 C, and 56 Fe to 3 He have been measured at 1 < x B < 3. At Q 2 > 1:4 GeV 2 , the ratios exhibit two separate plateaus, at 1:5 < x B < 2 and at x B > 2:25. This pattern is predicted by models that include 2-and 3-nucleon short-range correlations (SRC). Relative to A 3, the per-nucleon probabilities of 3-nucleon SRC are 2.3, 3.1, and 4.4 times larger for A 4, 12, and 56. This is the first measurement of 3-nucleon SRC probabilities in nuclei.

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Model analysis of theep→e'pπ+π−electroproduction reaction on the proton

et al. 2009

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Differential cross sections forγ+p→K++Yfor Λ andΣ0
Bradford¹,
Schumacher²,
McNabb³
et al. 2006
Phys. Rev. C
268
13
168
0
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L. Elouadrhiri

Axial structure of the nucleon

Electroexcitation of nucleon resonances from CLAS data on single pion electroproduction

The pressure distribution inside the proton

Momentum sharing in imbalanced Fermi systems

The CEBAF large acceptance spectrometer (CLAS)

Measurement of Two- and Three-Nucleon Short-Range Correlation Probabilities in Nuclei

Model analysis of theep→e'pπ+π−electroproduction reaction on the proton

Differential cross sections forγ+p→K++Yfor Λ andΣ0
Bradford¹,
Schumacher²,
McNabb³
et al. 2006
Phys. Rev. C
268
13
168
0
View full text Add to dashboard Cite

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About

L. Elouadrhiri

Axial structure of the nucleon

Electroexcitation of nucleon resonances from CLAS data on single pion electroproduction

The pressure distribution inside the proton

Momentum sharing in imbalanced Fermi systems

The CEBAF large acceptance spectrometer (CLAS)

Measurement of Two- and Three-Nucleon Short-Range Correlation Probabilities in Nuclei

Model analysis of theep→e'pπ+π−electroproduction reaction on the proton

Differential cross sections forγ+p→K++Yfor Λ andΣ0Bradford1, Schumacher2, McNabb3 et al. 2006Phys. Rev. C268131680View full textAdd to dashboardCite

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Product

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Differential cross sections forγ+p→K++Yfor Λ andΣ0
Bradford¹,
Schumacher²,
McNabb³
et al. 2006
Phys. Rev. C
268
13
168
0
View full text Add to dashboard Cite