Article
Physics, Nuclear
J. C. Batchelder, A. M. Hurst, M. S. Basunia
Summary: This paper presents the evaluated spectroscopic data and level schemes for Lu-186, Hf-186, Ta-186, W-186, Re-186, Os-186, Ir-186, Pt-186, Au-186, Hg-186, Tl-186, Pb-186, Bi-186, and 186Po. The evaluation includes revisions and improvements to certain level energies and decay branches.
NUCLEAR DATA SHEETS
(2022)
Article
Physics, Nuclear
N. Nica
Summary: The experimental results from reactions and decay studies leading to nuclides of Z=59 to Z=75 in the A=160 mass chain were reviewed and summarized before May 2021. These data, along with adopted level schemes and properties, aim to replace the previous evaluation of A=160 nuclides by C.W.Reich published in Nuclear Data Sheets 105, 557 (2005).
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
Shaofei Zhu, E. A. McCutchan
Summary: Experimental nuclear structure and decay data for all 12 known nuclides of mass 214 have been evaluated, with detailed spectroscopic information presented for each nuclide. The best values combining all available data are recommended for level properties, gamma and beta radiations, and other spectroscopic properties, surpassing the earlier evaluation on A=214.
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
Balraj Singh, Jun Chen
Summary: This article evaluates experimental data for 15 known nuclides of mass 100 and provides recommended values for level parameters, radiations, and spectroscopic information. Excited states are not known in some nuclides like Rb-100 and Sn-100. Limited information is available for some decay properties of certain isotopes, such as Kr-100 and Sn-100.
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
C. Morse
Summary: This article reviews the experimental reaction and decay studies of nuclei in the A=251 mass chain. It includes data on elements from uranium (Z=92) to nobelium (Z=102), and presents level and decay schemes for these nuclides. This work supersedes the previous evaluation for this mass chain (2013Br09).
NUCLEAR DATA SHEETS
(2023)
Article
Physics, Nuclear
T. Tamura, K. Miyano, S. Ohya
Summary: This article evaluates the nuclear structure and decay data of 16 known A=126 nuclides. It provides an update to previous evaluations by incorporating new experimental data and modifying previous datasets.
NUCLEAR DATA SHEETS
(2022)
Article
Physics, Nuclear
A. M. Mattera, S. Zhu, A. B. Hayes, E. A. Mccutchan
Summary: The experimental results of reaction and decay studies leading to nuclides in the A=252 mass chain have been reviewed, including nuclides ranging from U (Z=92) to Lr (Z=103). This work provides level and decay schemes, as well as tables of nuclear properties for these nuclei, superseding the previous evaluation of the data on these nuclides (2005Ni22).
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
M. S. Basunia
Summary: This article presents an evaluation of spectroscopic data and level schemes for various isotopes based on radioactive decay and nuclear reaction studies. One particular highlight of this evaluation is the proposed revision of spin-parity assignments for a specific isotope.
NUCLEAR DATA SHEETS
(2022)
Article
Physics, Nuclear
Ninel Nica, Balraj Singh
Summary: This work updates the evaluation of nuclear data for A=147 nuclides, including experimental data, level schemes, and half-lives.
NUCLEAR DATA SHEETS
(2022)
Article
Physics, Nuclear
Balraj Singh, Jun Chen
Summary: Experimental data for 13 known nuclides of mass 64 have been evaluated, revealing various excited states and unresolved aspects for certain nuclides, providing clearer insights into decay modes for some nuclides.
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
Jun Chen, Balraj Singh
Summary: The text evaluates experimental nuclear structure and decay data for all of the 14 known nuclides of mass 194, presenting detailed spectroscopic information for each reaction and decay experiment. Some nuclides have well-studied data while others are lacking, indicating the need for further experimental work. Issues in the assignment of multipolarities for Ir-194 were found in previous studies, suggesting the need for additional research to verify conclusions.
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
Jun Chen
Summary: Experimental nuclear structure and decay data for 15 known nuclides of mass 123 have been evaluated, providing detailed spectroscopic information for each nuclide. Discrepancies and unresolved issues in high-spin sequences, isomer identification, and beta decay schemes are highlighted, calling for further experimental investigations to address these gaps. This work supersedes previous evaluations of A=123 and contributes to a better understanding of nuclear properties for this mass region.
NUCLEAR DATA SHEETS
(2021)
Article
Physics, Nuclear
N. Nica
Summary: This study reviewed and presented the experimental results of various reaction and decay studies leading to nuclides in the A=141 mass chain, from Z=51 to Z=67, including 141Sb, 141Te, 141I, 141Xe, 141Cs, 141Ba, 141La, 141Ce, 141Pr, 141Nd, 141Pm, 141Sm, 141Eu, 141Gd, 141Tb, 141Dy, and 141Ho, published before August 2022. The data are accompanied by adopted level schemes and properties. This work replaces the previous evaluation of the A=141 nuclides published by N. Nica in Nuclear Data Sheets 122, 1 (2014).
NUCLEAR DATA SHEETS
(2023)
Article
Physics, Nuclear
F. G. Kondev
Summary: This article presents the evaluated nuclear structure and decay data for all nuclei with mass number A=201 (201Os, 201Ir, 201Pt, 201Au, 201Hg, 201Tl, 201Pb, 201Bi, 201Po, 201At, 201Rn, 201Fr, 201Ra). The available experimental data were compiled and evaluated to determine the best values for various nuclear properties. Inconsistencies and discrepancies in the literature were discussed and computer codes developed by NSDD network members were utilized during the evaluation process.
NUCLEAR DATA SHEETS
(2023)
Article
Physics, Nuclear
M. Shamsuzzoha Basunia, Anagha Chakraborty
Summary: This article presents the evaluation of spectroscopic data and level schemes for N-24, O-24, F-24, Ne-24, Na-24, Mg-24, Al-24, and Si-24. The evaluation highlights the need for further study and confirmation of certain energy levels in O-24 and Na-24.
NUCLEAR DATA SHEETS
(2022)
