High-energy electron scattering from $\mathrm{^6Li}$ and $\mathrm{^{12}C}$

Heimlich, F. H.; Koebberling, M.; Wegener, D.; Moritz, J.; Zeller, D.; Bienlein, J. K.; Schmidt, K. H.; Dinter, H.; Bleckwenn, J.
%0 Report
%A Heimlich, F. H.
%A Koebberling, M.
%A Moritz, J.
%A Schmidt, K. H.
%A Wegener, D.
%A Zeller, D.
%A Bienlein, J. K.
%A Bleckwenn, J.
%A Dinter, H.
%T High-energy electron scattering from <sup>6</sup>Li and <sup>12</sup>C
%N DESY-74-020
%M PUBDB-2017-11485
%M DESY-74-020
%P 1-22
%D 1974
%X We have measured the spectra of electrons scattered from 6 Li and 12 C for invariant masses of the hadronic system W ≦ 1.5 GeV and four momentum transfers in the range 5 fm −2 ≦ q 2 ≦ 12 fm −2 . We compared the shape of the spectra with different nuclear models. The Fermigas model of the nucleus cannot reproduce the data. A shell model with short-range correlations fits the data with a correlation parameter q c ≈ 250 MeV/ c . From the absolute cross section the effective number of nucleons was derived for quasi-elastic scattering and found to be compatible with A , whereas the effective number of nucleons derived for the excitation of the Δ(1236) resonance was found to be 0.6 A .
%K electron light nucleus: interaction (INSPIRE)
%K interaction: electron light nucleus (INSPIRE)
%K lithium (INSPIRE)
%K carbon (INSPIRE)
%K electron: differential cross section (INSPIRE)
%K differential cross section: electron (INSPIRE)
%K electron light nucleus: elastic scattering (INSPIRE)
%K elastic scattering: electron light nucleus (INSPIRE)
%K delta(1236): electroproduction (INSPIRE)
%K electroproduction: delta(1236) (INSPIRE)
%K nucleon nucleon: correlation (INSPIRE)
%K radiative correction (INSPIRE)
%K electron p: interaction (INSPIRE)
%K interaction: electron p (INSPIRE)
%K electron n: interaction (INSPIRE)
%K interaction: electron n (INSPIRE)
%K total cross section (INSPIRE)
%K nucleon: form factor (INSPIRE)
%K form factor: nucleon (INSPIRE)
%K nucleon: bound state (INSPIRE)
%K nucleon: momentum (INSPIRE)
%K momentum: spectrum (INSPIRE)
%K spectrum: momentum (INSPIRE)
%K shell model (INSPIRE)
%K model: fermi gas (INSPIRE)
%K baryon resonance: electroproduction (INSPIRE)
%K electroproduction: baryon resonance (INSPIRE)
%K baryon resonance: nonstrange (INSPIRE)
%K nonstrange: baryon resonance (INSPIRE)
%K desy es (INSPIRE)
%K FINAL STATE: ELECTRON (INSPIRE)
%K DEUTERON: FINAL STATE (INSPIRE)
%K FINAL STATE: DEUTERON (INSPIRE)
%K ELECTRON LIGHT NUCLEUS --> LIGHT NUCLEUS P ELECTRON (INSPIRE)
%K ELECTRON LIGHT NUCLEUS --> LIGHT NUCLEUS DEUTERON ELECTRO (INSPIRE)
%K 2.0: 2.5: 2.7 gev: 5-12 q-squared (1/f)-squared (INSPIRE)
%K 2.0-2.7 GEV (INSPIRE)
%K POTENTIAL SCATTERING (INSPIRE)
%K CORRELATION: SHORT-RANGE (INSPIRE)
%K MODEL: CLUSTER (INSPIRE)
%K MODEL: OSCILLATOR (INSPIRE)
%K EMISSION: DEUTERON (INSPIRE)
%K EMISSION: MOMENTUM TRANSFER (INSPIRE)
%K ELECTRON DEUTERON: ELASTIC SCATTERING (INSPIRE)
%K ELASTIC SCATTERING: ELECTRON DEUTERON (INSPIRE)
%K CROSS SECTION: RATIO (INSPIRE)
%K DELTA(1236): ELECTROPRODUCTION (INSPIRE)
%K ELECTROPRODUCTION: DELTA(1236) (INSPIRE)
%K MODEL: GUTBROD-SIMON (INSPIRE)
%K NUMERICAL CALCULATIONS: INTERPRETATION OF EXPERIMENTS (INSPIRE)
%K LIGHT NUCLEUS: FINAL STATE (INSPIRE)
%K FINAL STATE: LIGHT NUCLEUS (INSPIRE)
%K P: FINAL STATE (INSPIRE)
%K FINAL STATE: P (INSPIRE)
%K ELECTRON: FINAL STATE (INSPIRE)
%F PUB:(DE-HGF)29 ; PUB:(DE-HGF)15
%9 ReportInternal Report
%R 10.3204/PUBDB-2017-11485
%U https://bib-pubdb1.desy.de/record/393458
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