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• W2971077892 abstract "Background: The rapid neutron capture process is one of the main nucleosynthesis processes of elements heavier than Fe. Uncertainties in nuclear properties, such as masses, half-lives, and $ensuremath{beta}$-delayed neutron probabilities can cause orders of magnitude of variation within astrophysical $r$-process simulations. Presently, theoretical models are used to make global predictions of various nuclear properties for the thousands of nuclei required for these simulations, and measurements are required to benchmark these models, especially far from stability.Purpose: $ensuremath{beta}$-decay strength distributions can be used to not only inform astrophysical $r$-process simulations, but also to provide a stringent test for theoretical calculations. The aim of this work is to provide accurate strength distributions for $^{69,71}mathrm{Co}phantom{rule{4pt}{0ex}}ensuremath{beta}$ decay.Method: The technique of total absorption spectroscopy was used to measure the $ensuremath{beta}$ decay of $^{69,71}mathrm{Co}$ for the first time at the National Superconducting Cyclotron Laboratory. The ions were implanted in a double-sided silicon strip detector at the center of the Summing NaI(Tl) detector and identified using standard particle identification methods. The response of the detection system to the $ensuremath{beta}$-decay electron and subsequent $ensuremath{gamma}$-ray radiation was fit to the observed experimental data using a ${ensuremath{chi}}^{2}$-minimization technique.Results: $ensuremath{beta}$-feeding intensities and Gamow-Teller strength distributions were extracted from the fits of the experimental data. The $ensuremath{beta}$-decay intensities show that there is a large percentage of feeding to levels above 2 MeV, which have not been observed in previous studies. The resultant $ensuremath{beta}$-feeding intensities and Gamow-Teller strength distributions were compared to shell model and quasiparticle random phase approximation (QRPA) calculations.Conclusions: Comparing experimentally determined $ensuremath{beta}$-decay strength distributions provides a test of models, which are commonly used for global $ensuremath{beta}$-decay properties for astrophysical calculations. This work highlights the importance of performing detailed comparisons of models to experimental data, particularly far from stability and as close to the $r$-process path as possible." @default.
• W2971077892 created "2019-09-05" @default.
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• W2971077892 date "2019-08-26" @default.
• W2971077892 modified "2023-10-16" @default.
• W2971077892 title "<mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML><mml:mmultiscripts><mml:mi>Co</mml:mi><mml:mprescripts /><mml:none /><mml:mrow><mml:mn>69</mml:mn><mml:mo>,</mml:mo><mml:mn>71</mml:mn></mml:mrow></mml:mmultiscripts><mml:mo> </mml:mo><mml:mi>β</mml:mi></mml:math> -decay strength distributions from total absorption spectroscopy" @default.
• W2971077892 cites W1257680829 @default.
• W2971077892 cites W154460001 @default.
• W2971077892 cites W1670618643 @default.
• W2971077892 cites W1773391026 @default.
• W2971077892 cites W1941114438 @default.
• W2971077892 cites W1963927026 @default.
• W2971077892 cites W1967205826 @default.
• W2971077892 cites W1969401205 @default.
• W2971077892 cites W1973773447 @default.
• W2971077892 cites W1979491314 @default.
• W2971077892 cites W1982823307 @default.
• W2971077892 cites W1986400088 @default.
• W2971077892 cites W1988730295 @default.
• W2971077892 cites W1990741055 @default.
• W2971077892 cites W1996603261 @default.
• W2971077892 cites W1997160764 @default.
• W2971077892 cites W2006266761 @default.
• W2971077892 cites W2012108819 @default.
• W2971077892 cites W2020986696 @default.
• W2971077892 cites W2022789202 @default.
• W2971077892 cites W2024095061 @default.
• W2971077892 cites W2026776015 @default.
• W2971077892 cites W2040259885 @default.
• W2971077892 cites W2040281876 @default.
• W2971077892 cites W2047943214 @default.
• W2971077892 cites W2048646406 @default.
• W2971077892 cites W2061410797 @default.
• W2971077892 cites W2062890653 @default.
• W2971077892 cites W2063758976 @default.
• W2971077892 cites W2080290513 @default.
• W2971077892 cites W2080499049 @default.
• W2971077892 cites W2086102522 @default.
• W2971077892 cites W2089630383 @default.
• W2971077892 cites W2103165993 @default.
• W2971077892 cites W2106295983 @default.
• W2971077892 cites W2164072260 @default.
• W2971077892 cites W2178405072 @default.
• W2971077892 cites W2195134359 @default.
• W2971077892 cites W2196489442 @default.
• W2971077892 cites W2210678191 @default.
• W2971077892 cites W2235856006 @default.
• W2971077892 cites W2313914075 @default.
• W2971077892 cites W2322075331 @default.
• W2971077892 cites W2338338553 @default.
• W2971077892 cites W2338912138 @default.
• W2971077892 cites W2339900056 @default.
• W2971077892 cites W2345736355 @default.
• W2971077892 cites W2432015407 @default.
• W2971077892 cites W2435289846 @default.
• W2971077892 cites W2474080653 @default.
• W2971077892 cites W2525012668 @default.
• W2971077892 cites W2533113531 @default.
• W2971077892 cites W2578948969 @default.
• W2971077892 cites W2620056804 @default.
• W2971077892 cites W275357562 @default.
• W2971077892 cites W2763877873 @default.
• W2971077892 cites W2765333366 @default.
• W2971077892 cites W2766140821 @default.
• W2971077892 cites W2798827418 @default.
• W2971077892 cites W3099165360 @default.
• W2971077892 cites W3100029078 @default.
• W2971077892 cites W3100780339 @default.
• W2971077892 cites W3100915065 @default.
• W2971077892 cites W3101366092 @default.
• W2971077892 cites W3102315866 @default.
• W2971077892 cites W3102604221 @default.
• W2971077892 cites W3105628247 @default.
• W2971077892 cites W3124311860 @default.
• W2971077892 doi "https://doi.org/10.1103/physrevc.100.025806" @default.
• W2971077892 hasPublicationYear "2019" @default.

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