Add to ORKGThe β– decay of 116m1In (Iπ = 5+), studied using the 8π array at TRIUMF-ISAC, predominantly populated 4+ states in the semi-magic daughter 116Sn, with 50 protons and 66 neutrons. The resulting electromagnetic decays to the ground state were studied through conversion-electron spectroscopy and through angular correlations of coincident gamma rays. Conversion-electron spectroscopy allowed measuring K-shell internal conversion coefficients (αK), and angular correlations of coincident gamma rays allowed determinations of E2/M1 mixing ratios (δ). These values are reported and used to infer aspects of the underlying nuclear structure of 116Sn. In the course of the analysis, several αK values were measured, of which three were measured for the fir...
A decay spectroscopy experiment on proton-rich nuclei in the vicinity of the doubly magic Sn100 was ...
International audienceHalf-lives and energies of γ rays emitted in the decay of isomeric states of n...
Detailed spectroscopic information of excited nuclear states in deformed transfermium nuclei is scar...
The 116Sn nucleus was studied via the $\beta^{-}$ decay of 116In utilizing the $8\pi$ spectrometer a...
The even-even tin isotopes are known to exhibit shape coexistence, the phenomenon where multiple sha...
The nucleus 116Sn has been studied via the neutron pickup reactions 117Sn(d,t)116Sn and 117Sn(3He, α...
The 116Sn nucleus contains a collective rotational band originating from proton $\pi$ 2p-2h excitati...
International audienceThe$^{116}$Sn nucleus contains a collective rotational band originating from p...
Measurements have been made of certain angular correlations as well as of several internal conversio...
The excitation-energy range 3.5-7.2 MeV in the nucleus Sn-116 has been investigated via the proton s...
Abstract The double-beta decay of 116Cd into excited states of 116Sn is experimentally and theoret...
International audienceThe structure of the 131Sn nucleus was studied at the Institut LaueLangevin by...
The excitation-energy range 3.5-7.2 MeV in the nucleus Sn-116 has been investigated via the proton s...
The Sn-116(p, t) Sn-114 reaction has been studied in a high-resolution experiment at an incident pro...
Tin is the chemical element with the largest number of stable isotopes. Its complete proton shell, c...
A decay spectroscopy experiment on proton-rich nuclei in the vicinity of the doubly magic Sn100 was ...
International audienceHalf-lives and energies of γ rays emitted in the decay of isomeric states of n...
Detailed spectroscopic information of excited nuclear states in deformed transfermium nuclei is scar...
The 116Sn nucleus was studied via the $\beta^{-}$ decay of 116In utilizing the $8\pi$ spectrometer a...
The even-even tin isotopes are known to exhibit shape coexistence, the phenomenon where multiple sha...
The nucleus 116Sn has been studied via the neutron pickup reactions 117Sn(d,t)116Sn and 117Sn(3He, α...
The 116Sn nucleus contains a collective rotational band originating from proton $\pi$ 2p-2h excitati...
International audienceThe$^{116}$Sn nucleus contains a collective rotational band originating from p...
Measurements have been made of certain angular correlations as well as of several internal conversio...
The excitation-energy range 3.5-7.2 MeV in the nucleus Sn-116 has been investigated via the proton s...
Abstract The double-beta decay of 116Cd into excited states of 116Sn is experimentally and theoret...
International audienceThe structure of the 131Sn nucleus was studied at the Institut LaueLangevin by...
The excitation-energy range 3.5-7.2 MeV in the nucleus Sn-116 has been investigated via the proton s...
The Sn-116(p, t) Sn-114 reaction has been studied in a high-resolution experiment at an incident pro...
Tin is the chemical element with the largest number of stable isotopes. Its complete proton shell, c...
A decay spectroscopy experiment on proton-rich nuclei in the vicinity of the doubly magic Sn100 was ...
International audienceHalf-lives and energies of γ rays emitted in the decay of isomeric states of n...
Detailed spectroscopic information of excited nuclear states in deformed transfermium nuclei is scar...