Scattering of radioactive nuclei 6He and 3H by protons: Effects of neutron skin and halo in 6He, 8He, and 11Li

“…[41] for He isotopes and Ref. [32] for Li isotopes) and that of Suzuki et al [42] for 14 Be and 17,19 B nuclei. The charge form factors have been calculated within the plane wave Born approximation.…”

“…At present, efforts are devoted to investigate with such probes highly unstable isotopes at radioactive nuclear beam (RNB) facilities. Since the first experiments [1][2][3][4][5][6], it has been found from analyses of total interaction cross sections that weakly-bound neutron-rich light nuclei, e.g., 6,8 He, 11 Li,14 Be, 17,19 B, have increased sizes that deviate substantially from the R ∼ A 1/3 rule. It was realized (e.g., Refs.…”

“…For example, proton elastic scattering angular distributions were measured at incident energies less than 100 MeV/nucleon for He isotopes (e.g., Refs. [11][12][13][14][15][16][17][18][19][20]) and Li isotopes (e.g., Refs. [9,16]) and at an energy of 700 MeV/nucleon for the same nuclei at GSI (Darmstadt) (e.g., Refs.…”

“…The charge and matter distributions of these nuclei were tested in analyses of differential and total reaction cross sections of the proton scattering on exotic nuclei using different phenomenological and theoretical methods (see, Refs. [16,17,19,[21][22][23][24][25][26][27][28][29][30][31][32]). It was shown (e.g., Ref.…”

“…In Ref. [40] various existing theoretical predictions for the charge distributions in light exotic nuclei 6,8 He, 11 Li,14 Be, 17,19 B have been used for calculations of charge form factors. These were those of Tanihata et al (Ref.…”

Charge and matter distributions and form factors of light, medium, and heavy neutron-rich nuclei

“…[41] for He isotopes and Ref. [32] for Li isotopes) and that of Suzuki et al [42] for 14 Be and 17,19 B nuclei. The charge form factors have been calculated within the plane wave Born approximation.…”

“…At present, efforts are devoted to investigate with such probes highly unstable isotopes at radioactive nuclear beam (RNB) facilities. Since the first experiments [1][2][3][4][5][6], it has been found from analyses of total interaction cross sections that weakly-bound neutron-rich light nuclei, e.g., 6,8 He, 11 Li,14 Be, 17,19 B, have increased sizes that deviate substantially from the R ∼ A 1/3 rule. It was realized (e.g., Refs.…”

“…For example, proton elastic scattering angular distributions were measured at incident energies less than 100 MeV/nucleon for He isotopes (e.g., Refs. [11][12][13][14][15][16][17][18][19][20]) and Li isotopes (e.g., Refs. [9,16]) and at an energy of 700 MeV/nucleon for the same nuclei at GSI (Darmstadt) (e.g., Refs.…”

“…The charge and matter distributions of these nuclei were tested in analyses of differential and total reaction cross sections of the proton scattering on exotic nuclei using different phenomenological and theoretical methods (see, Refs. [16,17,19,[21][22][23][24][25][26][27][28][29][30][31][32]). It was shown (e.g., Ref.…”

“…In Ref. [40] various existing theoretical predictions for the charge distributions in light exotic nuclei 6,8 He, 11 Li,14 Be, 17,19 B have been used for calculations of charge form factors. These were those of Tanihata et al (Ref.…”

Charge and matter distributions and form factors of light, medium, and heavy neutron-rich nuclei

First experiment of 6He with a polarized proton target

Nuclear-matter distributions of halo nuclei from elastic proton scattering in inverse kinematics