A Vanderwoude
University of Groningen
11 Papers
54 Citations
A Vanderwoude is an academic researcher from University of Groningen. The author has contributed to research in topics: Neutron & Isoscalar. The author has an hindex of 6, co-authored 11 publications.
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Papers
Giant multipole resonances from inelastic-scattering of 152-mev alpha-particles
F. E. Bertrand,G.R. Satchler,D.J. Horen,[No Value] Wu,A.D. Bacher,Gt Emery,W.P. Jones,D.W. Miller,A Vanderwoude +8 more
TL;DR: Giant resonance spectra have been measured for 152-MeV alpha particles in this article, and the results for the monopole resonance when compared to distorted-wave Born-approximation calculations show that \ensuremath{\sim}100% (ifmmode\pm\else\textpm\fi{}20%) of the $T=0, $L=0$ energy weighted sum rule is depleted for nuclei with $Ag90.
62
Evidence for a (semi)direct component in the decay of the isoscalar giant monopole in pb-208
Sijtze Brandenburg,W.T.A. Borghols,A.G. Drentje,A Vanderwoude,Mohsen Harakeh,Lp Ekstrom,A. Hakanson,Leif Nilsson,Nils Olsson,R Deleo +9 more
TL;DR: Branching ratios to the neutron hole states resulting from the decay of the isoscalar giant monopole resonance in /sup 208/Pb have been extracted and an upper limit for (semi)direct decay is obtained and compared to recent calculations.
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Isoscalar monopole and dipole strength between 10 mev and 20 mev in mg-24, from inelastic alpha-scattering at and around 0-degrees
TL;DR: Differential cross sections for inelastic \ensuremath{\alpha} scattering from $^{24}\mathrm{Mg}$ in the region of 10-20 MeV excitation have been measured at the angular range of 0--8\ifmmode^\circ\else\text degree\fi{ as mentioned in this paper.
24
Study of isovector charge-exchange excitations and their decay via the o-16(he-3, tpbar) reaction
W.A. Sterrenburg,Sijtze Brandenburg,Jh Vandijk,A.G. Drentje,M. B. Greenfield,Mohsen Harakeh,Hideyuki Sakai,W Segeth,Sy Vanderwerf,A Vanderwoude +9 more
TL;DR: The nucleus 16F was studied via the 16O(3He, t) reaction at 81 MeV in this article, and the distribution of isovector ΔL = 1 strength could be deduced.
18
Isoscalar giant-resonances in th-232
TL;DR: In this paper, the giant resonance region in /sup 232/Th has been studied with inelastic cap alpha scattering at E/sub..cap alpha =120 MeV and the observed resonance peak can be fitted with one Gaussian peak centered at 11.0 +- 0.3 MeV with full width at half maximum equal to 4.
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