Your search keyword '"Birkhan J"' showing total 2 results

1. Search for weak M1 transitions in 48Ca with inelastic proton scattering.

Author

Mathy, M., Birkhan, J., Matsubara, H., von Neumann-Cosel, P., Pietralla, N., Ponomarev, V. Yu., Richter, A., and Tamii, A.

Subjects

*CALCIUM isotopes, *PROTON scattering

Abstract

Background: The quenching of spin-isospin modes in nuclei is an important field of research in nuclear structure. It has an impact on astrophysical reaction rates and on fundamental processes like neutrinoless double- ß decay. Gamow-Teller (GT) and spin-flip M1 strengths are quenched. Concerning the latter, the Jp = 1+ resonance in the doubly magic nucleus 48Ca, dominated by a single transition, serves as a reference case. Purpose: The aim of the present work is to search for weak M1 transitions in 48Ca with a high-resolution (p, p') experiment at 295 MeV and forward angles including 0° and a comparison with results from a similar study using backward-angle electron scattering at low momentum transfers in order to estimate their contribution to the total B (M1) strength in 48Ca. Methods: The spin- M1 cross sections of individual peaks in the spectra are deduced with a multipole decomposition analysis (MDA) and converted to reduced spin- M1 transition strengths by using the unit cross-section method. For a comparison with electron-scattering results, corresponding reduced B (M1) transition strengths are extracted following the approach outlined in Birkhan et al. [Phys. Rev. C 93, 041302(R) (2016)]. Results: In total, 30 peaks containing a M1 contribution are found in the excitation energy region 7-13 MeV. The resulting B (M1) strength distribution compares well to the electron-scattering results considering different factors limiting the sensitivity in both experiments and the enhanced importance of mechanisms breaking the proportionality of nuclear cross sections and electromagnetic matrix elements for weak transitions as studied here. The total strength of 1.14(7) µ²N deduced assuming a nonquenched isoscalar part of the (p, p') cross sections agrees with the (e, e') result of 1.21(13) µ²N. A bin-wise analysis above 10 MeV provides an upper limit of 1.51(17) µ²N. Conclusions: The present results confirm the previous electron-scattering work that weak transitions contribute about 25% to the total B (M1) strength in 48Ca and the quenching factors of GT and spin- M1 strength are then comparable in f p -shell nuclei. Thus, the role of meson-exchange currents seems to be negligible in 48Ca, in contrast to sd -shell nuclei. [ABSTRACT FROM AUTHOR]

Published

2017

2. Electromagnetic M1 transition strengths from inelastic proton scattering: The cases of 48Ca and 208Pb.

Author

Birkhan, J., Matsubara, H., von Neumann-Cosel, P., Pietralla, N., Ponomarev, V. Yu., Richter, A., Tamii, A., and Wambach, J.

Subjects

*ELECTROMAGNETISM, *INELASTIC scattering, *HEAVY nuclei

Abstract

Inelastic proton scattering at energies of a few hundred million electron volts and extreme forward angles selectively excite the isovector spin-flip M1 (IVSM1) resonance. A method based on isospin symmetry is presented to extract its electromagnetic transition strength from the (p,p') cross sections. It is applied to 48Ca, a key case for an interpretation of the quenching phenomenon of the spin-isospin response, and leads to a M1 strength consistent with an older (e,e') experiment excluding the almost two times larger value from a recent (γ,n) experiment. Good agreement with electromagnetic probes is observed in 208Pb, suggesting the possibility of extracting systematic information on the IVSM1 resonance in heavy nuclei. [ABSTRACT FROM AUTHOR]

Published

2016