Analyses of electron and proton scattering to low-excitation isoscalar states in 20Ne, 24Mg and 28Si

Amos, K.; Bauhoff, W.

doi:10.1016/0375-9474(84)90128-3

Cited by 15 publications

(7 citation statements)

References 25 publications

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“…The results obtained using the LF81, LF85 and Ham90 interactions are displayed in the top, middle and bottom panels respectively. In view of the reasonable fits to data obtained using the full PHF model of structure for the electron scattering form factors, as well as in analyses of low energy (24·5 MeV) inelastic scattering data (Amos and Bauhoff 1984), our calculations for 800 MeV scattering give surprisingly poor results when compared with the data.…”

Section: Resultsmentioning

confidence: 98%

“…The low excitation spectrum of 20Ne and transition rates between the states therein have been calculated using the conventional s-d shell model, as well as projected Hartree-Fock (PHF) models of varying dimension (Ford et al 1971;Nesci and Amos 1977 (Amos and Bauhoff 1984;Amos and Steward 1990) to consider electron and proton scattering; the latter at low energies.…”

Section: Details Of Calculationsmentioning

confidence: 99%

See 1 more Smart Citation

Inelastic Scattering from 20Ne

Amos¹,

Berge²,

Steward³

et al. 1991

Aust. J. Phys.

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Inelastic scattering of 800 MeV protons exciting states of the ground state rotation band of 20Ne is studied using large basis space, microscopic model (Hartree-Fock) wavefunctions and free two-nucleon t-matrices, one of which is based upon the Paris interaction. Results are compared with coupled channels analyses of the data made using Dirac as well as Schrodinger phenomenology. Thereby it is suggested that coupled channels effects in the reaction mechanism are essential in analysis of such higher energy reaction data.

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Section: Resultsmentioning

confidence: 98%

Section: Details Of Calculationsmentioning

confidence: 99%

Inelastic Scattering from 20Ne

Amos¹,

Berge²,

Steward³

et al. 1991

Aust. J. Phys.

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“…The band structure of 24 Mg has been studied via electromagnetic transitions [1][2][3], and intensively investigated through inelastic scattering of various probes, including electrons [4][5][6][7][8][9][10], pions [11], nucleons [12][13][14][15][16][17][18][19][20][21][22][23], 3 He [24,25], and α [25][26][27][28][29]. For inelastic hadron scattering off 24 Mg, detailed reaction analyses have been performed using the distorted-wave Born approximation (DWBA) and coupled-channel (CC) calculations.…”

Section: Introductionmentioning

confidence: 99%

Probing negative-parity states of Mg24 probed with proton and α inelastic scattering

Kanada-En’yo

Ogata

2021

Phys. Rev. C

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“…The band structure and deformations of 24 Mg have been investigated by various experimental probes, including electromagnetic transitions [1][2][3] and the inelastic scatterings of electrons [4][5][6][7][8][9][10], pions [11], nucleons [12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27], 3 He [28,29], and α particles [29][30][31][32][33]. In the positiveparity spectra, the {0 + 1 , 2 + 1 , 4 + 1 } and {2 + 2 , 3 + 1 , 4 + 2 } states have been assigned to the K π = 0 + ground-and K π = 2 + side-bands, respectively.…”

Section: Introductionmentioning

confidence: 99%

“…However, for the 4 + 1 (K π = 0 + ) state, such reaction calculations with phenomenological collective models have failed to describe the angular distribution of the (p, p ) cross sections. Further, microscopic approaches have been applied to calculate the inelastic scattering of protons [14,27] and the inelastic charge form factors [9,36]; however, no microscopic calculation has succeeded in reproducing the property of the 0 + 1 → 4 + 1 transition. In inelastic scattering, the 4 + 1 (4.12 MeV) state is weakly produced compared to the 2 + 2 (4.24 MeV) state at close energy.…”

Section: Introductionmentioning

confidence: 99%

Microscopic coupled-channel calculation of proton and alpha inelastic scattering to the $4^+_1$ and $4^+_2$ states of $^{24}$Mg

Kanada-En’yo¹,

Ogata²

2020

Preprint

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Background The triaxial and hexadecapole deformations of the K π = 0 + and K π = 2 + bands of 24 Mg have been investigated by the inelastic scatterings of various probes, including electrons, protons, and alpha(α) particles, for a prolonged time. However, it has been challenging to explain the unique properties of the scatterings observed for the 4 + 1 state through reaction calculations.Purpose To investigate the structure and transition properties of the K π = 0 + and K π = 2 + bands of 24 Mg employing the microscopic structure and reaction calculations via inelastic proton and α-scattering. Particularly, the E4 transitions to the 4 + 1 and 4 + 2 states were reexamined. Method The structure of 24 Mg was calculated employing the variation after the parity and total-angular momentum projections in the framework of the antisymmetrized molecular dynamics (AMD). The inelastic proton and α reactions were calculated by the microscopic coupled-channel (MCC) approach by folding the Melbourne g-matrix N N interaction with the AMD densities of 24 Mg.Results Reasonable results were obtained on the properties of the structure, including the energy spectra and E2 and E4 transitions of the K π = 0 + and K π = 2 + bands owing to the enhanced collectivity of triaxial deformation. The MCC+AMD calculation successfully reproduced the angular distributions of the 4 + 1 and 4 + 2 cross sections of proton scattering at incident energies of Ep = 40-100 MeV and α-scattering at Eα = 100-400 MeV.Conclusions This is the first microscopic calculation that described the unique properties of the 0 + 1 → 4 + 1 transition. In the inelastic scattering to the 4 + 1 state, the dominant two-step process of the 0 + 1 → 2 + 1 → 4 + 1 transitions and the deconstructive interference is the weak one-step process were essential.

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Analyses of electron and proton scattering to low-excitation isoscalar states in 20Ne, 24Mg and 28Si

Cited by 15 publications

References 25 publications

Inelastic Scattering from 20Ne

Inelastic Scattering from 20Ne

Probing negative-parity states of Mg24 probed with proton and α inelastic scattering

Microscopic coupled-channel calculation of proton and alpha inelastic scattering to the $4^+_1$ and $4^+_2$ states of $^{24}$Mg

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