The neutron capture cross section of Mg-26 was measured relative to the
known gold cross section at kT = 52 keV using the fast cyclic activation
technique. The experiment was performed at the Van de Graaff accelerator
at the Universitat Tubingen. From the new experimental result we deduce
the resonance strength for the resonance at E-n = 68.7 keV which is in
good agreement with a direct measurement by Weigmann et nl., whereas for
the resonance at E-n = 220 keV a discrepancy was found between the
Weigmann data and our previous experiment. Finally, we calculate the
Maxwellian-averaged capture cross section (sigma) in the astrophysically
relevant energy region from the available experimental data, and we
discuss the discrepancies of (sigma) between our work and a previous
calculation by Weigmann et al. S0556-2813(99)02407-3.
%0 Journal Article
%1 ISI:000081475000048
%A Mohr, P
%A Beer, H
%A Oberhummer, H
%A Rochow, W
%A Sedyshev, PV
%A Volz, S
%A Zilges, A
%D 1999
%J Phys. Rev. C
%K imported myown zilges
%N 1
%R 10.1103/PhysRevC.60.017603
%T Neutron capture of Mg-26 at kT=52 keV and the resonance at E-n=68.7 keV
%V 60
%X The neutron capture cross section of Mg-26 was measured relative to the
known gold cross section at kT = 52 keV using the fast cyclic activation
technique. The experiment was performed at the Van de Graaff accelerator
at the Universitat Tubingen. From the new experimental result we deduce
the resonance strength for the resonance at E-n = 68.7 keV which is in
good agreement with a direct measurement by Weigmann et nl., whereas for
the resonance at E-n = 220 keV a discrepancy was found between the
Weigmann data and our previous experiment. Finally, we calculate the
Maxwellian-averaged capture cross section (sigma) in the astrophysically
relevant energy region from the available experimental data, and we
discuss the discrepancies of (sigma) between our work and a previous
calculation by Weigmann et al. S0556-2813(99)02407-3.
@article{ISI:000081475000048,
abstract = {The neutron capture cross section of Mg-26 was measured relative to the
known gold cross section at kT = 52 keV using the fast cyclic activation
technique. The experiment was performed at the Van de Graaff accelerator
at the Universitat Tubingen. From the new experimental result we deduce
the resonance strength for the resonance at E-n = 68.7 keV which is in
good agreement with a direct measurement by Weigmann et nl., whereas for
the resonance at E-n = 220 keV a discrepancy was found between the
Weigmann data and our previous experiment. Finally, we calculate the
Maxwellian-averaged capture cross section (sigma) in the astrophysically
relevant energy region from the available experimental data, and we
discuss the discrepancies of (sigma) between our work and a previous
calculation by Weigmann et al. {[}S0556-2813(99)02407-3].},
added-at = {2019-11-20T10:09:48.000+0100},
article-number = {017603},
author = {Mohr, P and Beer, H and Oberhummer, H and Rochow, W and Sedyshev, PV and Volz, S and Zilges, A},
biburl = {https://www.bibsonomy.org/bibtex/2722b8712ce64d4bd6961fd1ba11e340c/ikpcologne},
doi = {10.1103/PhysRevC.60.017603},
eissn = {2469-9993},
interhash = {c3d61eca358722bca8430f5323a0bf88},
intrahash = {722b8712ce64d4bd6961fd1ba11e340c},
issn = {2469-9985},
journal = {Phys. Rev. C},
keywords = {imported myown zilges},
month = JUL,
number = 1,
researcherid-numbers = {Zilges, Andreas/G-9984-2011},
timestamp = {2019-11-20T10:09:48.000+0100},
title = {Neutron capture of Mg-26 at kT=52 keV and the resonance at E-n=68.7 keV},
unique-id = {ISI:000081475000048},
volume = 60,
year = 1999
}