D
D. B. Fossan
Researcher at Stony Brook University
Publications - 187
Citations - 3245
D. B. Fossan is an academic researcher from Stony Brook University. The author has contributed to research in topics: Excited state & Neutron. The author has an hindex of 26, co-authored 187 publications receiving 3097 citations. Previous affiliations of D. B. Fossan include Brookhaven National Laboratory.
Papers
More filters
Journal ArticleDOI
Chiral doublet structures in odd-odd n = 75 isotones: chiral vibrations.
K. Starosta,Takeshi Koike,C. J. Chiara,D. B. Fossan,D. R. LaFosse,A. A. Hecht,C. W. Beausang,Mark A. Caprio,J. R. Cooper,R. Krücken,J. R. Novak,N. V. Zamfir,K. E. Zyromski,D. J. Hartley,D. L. Balabanski,J. Y. Zhang,S. Frauendorf,V. I. Dimitrov +17 more
TL;DR: Aplanar solutions of 3D tilted axis cranking calculations for triaxial shapes define left- and right-handed chiral systems out of the three angular momenta provided by the valence particles and the core rotation, which leads to spontaneous chiral symmetry breaking and the doublet bands.
Journal ArticleDOI
In-beam gamma -ray spectroscopy above 100Sn using the new technique of recoil decay tagging
E. S. Paul,Philip Woods,Thomas Davinson,R. D. Page,Paul J. Sellin,C. W. Beausang,R. M. Clark,R.A. Cunningham,S. A. Forbes,D. B. Fossan,A. Gizon,J. Gizon,K. Hauschild,I. M. Hibbert,A.N. James,D. R. LaFosse,I.H. Lazarus,H. Schnare,Jayne Simpson,R. Wadsworth,M. P. Waring +20 more
TL;DR: In this article, a novel method of selecting \ensuremath{\gamma}-ray transitions in heavy nuclei (Ag100) at the proton drip-line has been attempted.
Journal ArticleDOI
Chiral degeneracy in triaxial 104Rh
TL;DR: Chiral doublet bands based on the pi g(9/2) multiply sign in circle nu h(11/2] configuration that achieve degeneracy at spin I=17 in the odd-odd triaxial 104Rh nucleus have been observed.
Journal ArticleDOI
Systematic search of π h 1 1 / 2 ⊗ ν h 1 1 / 2 chiral doublet bands and role of triaxiality in odd-odd Z = 55 isotopes: 1 2 8 , 1 3 0 , 1 3 2 , 1 3 4 Cs
TL;DR: In this paper, a triaxial core with an irrotational-flow moment of inertia was assumed for the odd-odd Cs isotopes and a core-quasiparticle coupling model employing the Kerman-Klein-D\"onau-Frauendorf method was applied to study the chiral doublet bands.
Journal ArticleDOI
Stability of chiral geometry in the odd–odd Rh isotopes: spectroscopy of 106Rh
Pankaj S. Joshi,D. G. Jenkins,P. M. Raddon,Anthony J. H. Simons,R. Wadsworth,A. R. Wilkinson,D. B. Fossan,Takeshi Koike,K. Starosta,C. Vaman,J. Timár,Zs. Dombrádi,A. Krasznahorkay,Jozsef Molnar,D. Sohler,L. Zolnai,A. Algora,E. S. Paul,G. Rainovski,A. Gizon,J. Gizon,P. Bednarczyk,D. Curien,G. Duchêne,J. N. Scheurer +24 more
TL;DR: The nucleus 106Rh was populated using the reaction 96Zr(13C, p2n) at a beam energy of 51 MeV in this paper using the EUROBALL-IV γ-ray spectrometer and the DIAMANT charged particle array.