Literature DB >> 36075930

AMC 12 atomic mass compilation data extrapolated for atomic masses of nuclei far from the valley of stability.

K Venkataramaniah1,2, Shreesha Rao D S3, C Scheidenberger1.   

Abstract

The experimental mass data from the Atomic Mass Compilation - 2012 (AMC12) has been analyzed for two-neutron separation energies ([Formula: see text]), two-proton separation energies ([Formula: see text]), double-beta decay energies ([Formula: see text]), and four-beta decay energies ([Formula: see text]) and plotted against neutron number and mass number, respectively. A new weighted slope method of extrapolation, tested for known and new mass measurements, has been used to obtain the extrapolated mass values with better precision for more than 1100 nuclei far from the valley of stability, out of which more than 100 are being reported for the first time. A comparison has been made with five of the popular mass models with reference to experimental extrapolated masses from the present work and the Atomic Mass Evaluation 2016 (AME16). The extrapolated experimental atomic mass data will be very useful for both experimentalists and mass-model theoreticians, as well as in simulations of astrophysical r-processes.
© 2022. The Author(s).

Entities:  

Year:  2022        PMID: 36075930      PMCID: PMC9458654          DOI: 10.1038/s41597-022-01628-4

Source DB:  PubMed          Journal:  Sci Data        ISSN: 2052-4463            Impact factor:   8.501


  6 in total

1.  Microscopic mass formulas.

Authors: 
Journal:  Phys Rev C Nucl Phys       Date:  1995-07

2.  Precision Mass Measurements of Neutron-Rich Neodymium and Samarium Isotopes and Their Role in Understanding Rare-Earth Peak Formation.

Authors:  R Orford; N Vassh; J A Clark; G C McLaughlin; M R Mumpower; G Savard; R Surman; A Aprahamian; F Buchinger; M T Burkey; D A Gorelov; T Y Hirsh; J W Klimes; G E Morgan; A Nystrom; K S Sharma
Journal:  Phys Rev Lett       Date:  2018-06-29       Impact factor: 9.161

3.  Precision Mass Measurements on Neutron-Rich Rare-Earth Isotopes at JYFLTRAP: Reduced Neutron Pairing and Implications for r-Process Calculations.

Authors:  M Vilen; J M Kelly; A Kankainen; M Brodeur; A Aprahamian; L Canete; T Eronen; A Jokinen; T Kuta; I D Moore; M R Mumpower; D A Nesterenko; H Penttilä; I Pohjalainen; W S Porter; S Rinta-Antila; R Surman; A Voss; J Äystö
Journal:  Phys Rev Lett       Date:  2018-06-29       Impact factor: 9.161

4.  Magic Nature of Neutrons in ^{54}Ca: First Mass Measurements of ^{55-57}Ca.

Authors:  S Michimasa; M Kobayashi; Y Kiyokawa; S Ota; D S Ahn; H Baba; G P A Berg; M Dozono; N Fukuda; T Furuno; E Ideguchi; N Inabe; T Kawabata; S Kawase; K Kisamori; K Kobayashi; T Kubo; Y Kubota; C S Lee; M Matsushita; H Miya; A Mizukami; H Nagakura; D Nishimura; H Oikawa; H Sakai; Y Shimizu; A Stolz; H Suzuki; M Takaki; H Takeda; S Takeuchi; H Tokieda; T Uesaka; K Yako; Y Yamaguchi; Y Yanagisawa; R Yokoyama; K Yoshida; S Shimoura
Journal:  Phys Rev Lett       Date:  2018-07-13       Impact factor: 9.161

5.  First Direct Mass Measurements of Nuclides around Z=100 with a Multireflection Time-of-Flight Mass Spectrograph.

Authors:  Y Ito; P Schury; M Wada; F Arai; H Haba; Y Hirayama; S Ishizawa; D Kaji; S Kimura; H Koura; M MacCormick; H Miyatake; J Y Moon; K Morimoto; K Morita; M Mukai; I Murray; T Niwase; K Okada; A Ozawa; M Rosenbusch; A Takamine; T Tanaka; Y X Watanabe; H Wollnik; S Yamaki
Journal:  Phys Rev Lett       Date:  2018-04-13       Impact factor: 9.161

6.  First Glimpse of the N=82 Shell Closure below Z=50 from Masses of Neutron-Rich Cadmium Isotopes and Isomers.

Authors:  V Manea; J Karthein; D Atanasov; M Bender; K Blaum; T E Cocolios; S Eliseev; A Herlert; J D Holt; W J Huang; Yu A Litvinov; D Lunney; J Menéndez; M Mougeot; D Neidherr; L Schweikhard; A Schwenk; J Simonis; A Welker; F Wienholtz; K Zuber
Journal:  Phys Rev Lett       Date:  2020-03-06       Impact factor: 9.161
  6 in total

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