Spectroscopy of Sn110 via the high-resolution Sn112(p,t)Sn110 reaction

P. Guazzoni; L. Zetta; A. Covello; A. Gargano; B. F. Bayman; G. Graw; R. Hertenberger; H. F. Wirth; M. Jaskola

doi:10.1103/PhysRevC.74.054605

Spectroscopy of Sn110 via the high-resolution Sn112(p,t)Sn110 reaction

P. Guazzoni, L. Zetta, A. Covello, A. Gargano, B. F. Bayman, G. Graw, R. Hertenberger, H. F. Wirth, M. Jaskola

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Abstract

The Sn112(p,t)Sn110 reaction was studied in a high-resolution experiment at an incident proton energy of 26 MeV. Angular distributions for 27 transitions to levels of Sn110 up to an excitation energy of ∼4.3 MeV were measured. A distorted-wave Born approximation (DWBA) analysis of experimental angular distributions using conventional Woods-Saxon potentials were done, allowing either the confirmation of previous spin and parity values or the assignment of new spin and parity to a large number of Sn110 states. A shell-model study was performed using an effective interaction derived from the CD-Bonn nucleon-nucleon potential. The energy spectra are calculated and compared with experiment, whereas the theoretical two-nucleon spectroscopic amplitudes, evaluated in a truncated seniority space, are used in the microscopic DWBA calculation of some cross-section angular distributions.

Original language	English (US)
Article number	054605
Journal	Physical Review C - Nuclear Physics
Volume	74
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevC.74.054605
State	Published - 2006
Externally published	Yes

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title = "Spectroscopy of Sn110 via the high-resolution Sn112(p,t)Sn110 reaction",

abstract = "The Sn112(p,t)Sn110 reaction was studied in a high-resolution experiment at an incident proton energy of 26 MeV. Angular distributions for 27 transitions to levels of Sn110 up to an excitation energy of ∼4.3 MeV were measured. A distorted-wave Born approximation (DWBA) analysis of experimental angular distributions using conventional Woods-Saxon potentials were done, allowing either the confirmation of previous spin and parity values or the assignment of new spin and parity to a large number of Sn110 states. A shell-model study was performed using an effective interaction derived from the CD-Bonn nucleon-nucleon potential. The energy spectra are calculated and compared with experiment, whereas the theoretical two-nucleon spectroscopic amplitudes, evaluated in a truncated seniority space, are used in the microscopic DWBA calculation of some cross-section angular distributions.",

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AU - Guazzoni, P.

AU - Zetta, L.

AU - Covello, A.

AU - Gargano, A.

AU - Bayman, B. F.

AU - Graw, G.

AU - Hertenberger, R.

AU - Wirth, H. F.

AU - Jaskola, M.

PY - 2006

Y1 - 2006

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AB - The Sn112(p,t)Sn110 reaction was studied in a high-resolution experiment at an incident proton energy of 26 MeV. Angular distributions for 27 transitions to levels of Sn110 up to an excitation energy of ∼4.3 MeV were measured. A distorted-wave Born approximation (DWBA) analysis of experimental angular distributions using conventional Woods-Saxon potentials were done, allowing either the confirmation of previous spin and parity values or the assignment of new spin and parity to a large number of Sn110 states. A shell-model study was performed using an effective interaction derived from the CD-Bonn nucleon-nucleon potential. The energy spectra are calculated and compared with experiment, whereas the theoretical two-nucleon spectroscopic amplitudes, evaluated in a truncated seniority space, are used in the microscopic DWBA calculation of some cross-section angular distributions.

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Spectroscopy of Sn110 via the high-resolution Sn112(p,t)Sn110 reaction

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