Deuteron Elastic Electromagnetic Form Factor in Relativistic Harmonic Oscillator Model

“…Having determined the vertex form factors, we present the scheme of calculations of the MEC contribution to (13) (4). From S-matrix we extract the deuteron current J~:…”

“…Attempts to explain the behaviour of A (q2) in the nonrelativistic approach using only the representation of the deuteron nucleon structure and various phenomenological NN potentials have shown that in the region of large transferred momenta q2 > 1 (GeV/c) 2 theoretical calculations provide too low values of A(q 2) that differ from the experimental data by an order of magnitude and more at q2 >6 (GeV/c) 2 (see, for instance, papers [3][4][5][6][7]). In this connection the approaches allowing for the relativistic effects [3,7], meson exchange currents [8][9][10][11], deuteron quark structure [4,5,[12][13][14][15][16], electric neutron form factor [3,7,17], etc. were developed (see, for instance, [18,19]).…”

“…In paper [7] a similar consideration led to positive corrections but they turned out to be small again in the region q2<8 (GeV/c) 2 and they could not explain the available experimental data. Putting aside the problem of inclusion of meson exchange currents, one should note an attempt to explain the experiment [3,7,17] by introducing a phenomenological electric form factor of a neutron.It has been indicated in [5,12,20] that the behaviour of A(q 2) in the region of large transfer momenta corresponds to the quark counting rules [21,22], which, together with the assumption about the existence of multiquark systems in nuclei (see, e.g., [23][24][25][26][27]), initiated some successful attempts to explain A(q 2) [4][5][6][12][13][14][15][16]. In these papers the probability for a six-quark admixture to exist in a deuteron is within (2-12)%.…”

“…The form factor of an N-quark system in RHOM has been obtained in paper [13] FN, (q2) = (1 2 (10) Here, the problem parameters are c~N=N~-Jg (o~( is the oscillator parameter) and mass M~. The values of the parameters g3 =0.5 (GeV/c) and M3q_~ 1 GeV for the proton form factor F3q (N= 3) have been obtained in [13].…”

“…The values of the parameters g3 =0.5 (GeV/c) and M3q_~ 1 GeV for the proton form factor F3q (N= 3) have been obtained in [13]. Then, for the form factor of the six-…”

Form factors and polarization in the elasticeD-scattering with inclusion of meson and quark degrees of freedom in a deuteron

“…Having determined the vertex form factors, we present the scheme of calculations of the MEC contribution to (13) (4). From S-matrix we extract the deuteron current J~:…”

“…Attempts to explain the behaviour of A (q2) in the nonrelativistic approach using only the representation of the deuteron nucleon structure and various phenomenological NN potentials have shown that in the region of large transferred momenta q2 > 1 (GeV/c) 2 theoretical calculations provide too low values of A(q 2) that differ from the experimental data by an order of magnitude and more at q2 >6 (GeV/c) 2 (see, for instance, papers [3][4][5][6][7]). In this connection the approaches allowing for the relativistic effects [3,7], meson exchange currents [8][9][10][11], deuteron quark structure [4,5,[12][13][14][15][16], electric neutron form factor [3,7,17], etc. were developed (see, for instance, [18,19]).…”

“…In paper [7] a similar consideration led to positive corrections but they turned out to be small again in the region q2<8 (GeV/c) 2 and they could not explain the available experimental data. Putting aside the problem of inclusion of meson exchange currents, one should note an attempt to explain the experiment [3,7,17] by introducing a phenomenological electric form factor of a neutron.It has been indicated in [5,12,20] that the behaviour of A(q 2) in the region of large transfer momenta corresponds to the quark counting rules [21,22], which, together with the assumption about the existence of multiquark systems in nuclei (see, e.g., [23][24][25][26][27]), initiated some successful attempts to explain A(q 2) [4][5][6][12][13][14][15][16]. In these papers the probability for a six-quark admixture to exist in a deuteron is within (2-12)%.…”

“…The form factor of an N-quark system in RHOM has been obtained in paper [13] FN, (q2) = (1 2 (10) Here, the problem parameters are c~N=N~-Jg (o~( is the oscillator parameter) and mass M~. The values of the parameters g3 =0.5 (GeV/c) and M3q_~ 1 GeV for the proton form factor F3q (N= 3) have been obtained in [13].…”

“…The values of the parameters g3 =0.5 (GeV/c) and M3q_~ 1 GeV for the proton form factor F3q (N= 3) have been obtained in [13]. Then, for the form factor of the six-…”

Form factors and polarization in the elasticeD-scattering with inclusion of meson and quark degrees of freedom in a deuteron

Multiquark systems in3He and3H and elastic electron scattering at large transfer momenta

Relativistic bound states in QCD