Journal ArticleDOI
Microscopic structure of the pairing vibrational band in the Pb isotopes
TLDR
In this article, the wave functions associated with the pair addition and pair removal modes were calculated by diagonalizing monopole and multipole pairing forces in the Tamm-Dancoff and in the random phase approximation.About:
This article is published in Nuclear Physics.The article was published on 1980-07-01. It has received 5 citations till now. The article focuses on the topics: Pairing & Wave function.read more
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Nuclear Data Sheets for A = 212
TL;DR: In this article, the authors presented spectroscopic data and level schemes from radioactive decay and nuclear reactions for all nuclei with mass number A = 212, including the new α-particle and γ-ray data from the α decays of 216Fr (ground state and isomer) (1996Li37), 216Ac(ground state, isomer), and 216Pa (2000He17), and showed strong evidence supporting the discovery of a new isotope of protactinium, 212Pa (1997Mi03).
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Two-particle transfer reactions leading to giant pairing resonances
TL;DR: The triplet of τ = 1, 0 + two-particle states in the lead region such that the state τ z = 1 is 210 Pb(g.s) as mentioned in this paper.
Journal ArticleDOI
Nuclear data sheets for A = 212
TL;DR: In this paper, the experimental results leading to information about the level structure of nuclei with A=212 have been compiled and evaluated, including the results of all experiments studying the decays within the mass chain.
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Study of pairing deformations by means of two-particle transfer reactions
TL;DR: In this article, the macroscopic approach for two-particle transfer reactions is applied in normal spherical nuclei and pairing deformation parameters βp are estimated for Ni isotopes and for the lead region strong energy dependence of the β p values has been observed.
Journal ArticleDOI
Exact and collective treatments of the pairing phase transition
R. M. Clark,A. O. Macchiavelli +1 more
TL;DR: In this paper, an exact treatment of the pairing transition from harmonic vibration to deformed rotation is compared to the results of the recently introduced "critical point" description, and the exact results provide a microscopic justification for the assumptions used to find relevant analytic solutions of the collective pairing Hamiltonian.