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1. Competition between allowed and first-forbidden β decays and the r -process

   https://doi.org/10.1051/epjconf/202226003005  

   Podolyák, Zsolt (January 2022, EPJ Web of Conferences)

   Liu, W.; Wang, Y.; Guo, B.; Tang, X.; Zeng, S. (Ed.)

   β − decay lifetimes are essential ingredients for r -process yield calculations. In N≈126 r -process waiting point nuclei first-forbidden and allowed β decays are expected to compete. Recent experiments performed at CERN/ISOLDE showed that 207,208 Hg decay predominantly via first-forbidden decays. In addition, following on a high statistics study of the β + / EC decay of 208 At, it is suggested that the Z>82, N<126 nuclei provide an excellent testing ground for global calculations addressing the competition between first-forbidden and allowed β decays. 

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2. Shell-model study of weak β-decays relevant to astrophysical processes

   https://doi.org/10.3389/fphy.2024.1434598  

   Suzuki, Toshio; Shimizu, Noritaka (August 2024, Frontiers in Physics)

   Shell-model studies on the weak $\beta$-decay in nuclei relevant to astrophysical processes are carried out. The $\beta$-decay rates, as well as electron-capture rates in the $sd$- $pf$shell induced by Gamow–Teller (GT) transition, are evaluated in astrophysical environments. The weak rates for the Urca pair of nuclei with $A$= 31 in the island of inversion, which are important for the nuclear Urca processes in neutron star crusts, are investigated by shell-model calculations in the $sd$– $pf$shell. The GT strength is evaluated in the $sd$– $pf$shell for selected $\beta$-decays in the $sd$-shell nuclei, and the effects of the expansion of the configuration space on the quenching of the axial–vector coupling are examined. $\beta$-decay rates induced by first-forbidden (FF) transitions are studied by the Behrens–Bühring (BB) method for the isotones with $N$= 126 and compared with the Walecka method. The important role of the electron distortions in the $\beta$-decays of²⁰⁶Hg and²⁰⁷Tl is pointed out. 

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3. Shades: ²² Ne( α , n) ²⁵ Mg reaction rate in the Gamow window

   https://doi.org/10.1051/epjconf/202226011031  

   Rapagnani, David; Ananna, Chemseddine; Di Leva, Antonino; Imbriani, Gianluca; Junker, Matthias; Pignatari, Marco; Best, Andreas (January 2022, EPJ Web of Conferences)

   Liu, W.; Wang, Y.; Guo, B.; Tang, X.; Zeng, S. (Ed.)

   Neutron capture reactions are the main contributors to the synthesis of the heavy elements through the s-process. Together with 13 C( α , n) 16 O, which has recently been measured by the LUNA collaboration in an energy region inside the Gamow peak, 22 Ne( α , n) 25 Mg is the other main neutron source in stars. Its cross section is mostly unknown in the relevant stellar energy (450 keV < E cm < 750 keV), where only upper limits from direct experiments and highly uncertain estimates from indirect sources exist. The ERC project SHADES (UniNa/INFN) aims to provide for the first time direct cross section data in this region and to reduce the uncertainties of higher energy resonance parameters. High sensitivity measurements will be performed with the new LUNA-MV accelerator at the INFN-LNGS laboratory in Italy: the energy sensitivity of the SHADES hybrid neutron detector, together with the low background environment of the LNGS and the high beam current of the new accelerator promises to improve the sensitivity by over 2 orders of magnitude over the state of the art, allowing to finally probe the unexplored low-energy cross section. Here we present an overview of the project and first results on the setup characterization. 

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4. N -Butylpyrrolidone (NBP) as a non-toxic substitute for NMP in iron-catalyzed C(sp ² )–C(sp ³ ) cross-coupling of aryl chlorides

   https://doi.org/10.1039/D1GC02377B  

   Bisz, Elwira; Koston, Martina; Szostak, Michal (October 2021, Green Chemistry)

   Although iron catalyzed cross-coupling reactions show extraordinary promise in reducing the environmental impact of more toxic and scarce transition metals, one of the main challenges is the use of reprotoxic NMP (NMP = N -methylpyrrolidone) as the key ligand to iron in the most successful protocols in this reactivity platform. Herein, we report that non-toxic and sustainable N -butylpyrrolidone (NBP) serves as a highly effective substitute for NMP in iron-catalyzed C(sp 2 )–C(sp 3 ) cross-coupling of aryl chlorides with alkyl Grignard reagents. This challenging alkylation proceeds with organometallics bearing β-hydrogens with efficiency superseding or matching that of NMP with ample scope and broad functional group tolerance. Appealing applications are demonstrated in the cross-coupling in the presence of sensitive functional groups and the synthesis of several pharmaceutical intermediates, including a dual NK1/serotonin inhibitor, a fibrinolysis inhibitor and an antifungal agent. Considering that the iron/NMP system has emerged as one of the most powerful iron cross-coupling technologies available in both academic and industrial research, we anticipate that this method will be of broad interest. 

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5. The ⁴¹ Ar(n,y) ⁴² Ar reaction

   https://doi.org/10.1051/epjconf/202328401037  

   Sahoo, R. N.; Paul, M.; Köster, U.; Scott, R.; Tessler, M.; Zylstra, A.; Avila, M. L.; Dickerson, C.; Jayatissa, H.; Kohen, M.S.; et al (January 2023, EPJ Web of Conferences)

   Mattoon, C.M.; Vogt, R.; Escher, J.; Thompson, I. (Ed.)

   The cross-section of the thermal neutron capture⁴¹Ar(n,γ)⁴²Ar(t_1/2=32.9 y) reaction was measured by irradiating a⁴⁰Ar sample at the high-flux reactor of Institut Laue-Langevin (ILL) Grenoble, France. The signature of the two-neutron capture has been observed by measuring the growth curve and identifying the 1524.6 keV γ-lines of the shorter-lived⁴²K(12.4 h) β⁻daughter of⁴²Ar. Our preliminary value of the⁴¹Ar(n,γ)⁴²Ar thermal cross section is 240(80) mb at 25.3 meV. For the first time, direct counting of⁴²Ar was performed using the ultra-high sensitivity technique of noble gas accelerator mass spectrometry (NOGAMS) at Argonne National Laboratory, USA. 

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