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1. Astatine partitioning between nitric acid and conventional solvents: indication of covalency in ketone complexation of AtO ⁺

   https://doi.org/10.1039/d0cc03804k  

   Burns, Jonathan D.; Tereshatov, Evgeny E.; McCarthy, Mallory A.; McIntosh, Lauren A.; Tabacaru, Gabriel C.; Yang, Xin; Hall, Michael B.; Yennello, Sherry J. (August 2020, Chemical Communications)

   null (Ed.)

   Astatine-211 has been produced at Texas A&M University on the K150 cyclotron, with a yield of 890 ± 80 MBq through the 209 Bi(α,2n) 211 At reaction via an 8 h bombardment with a beam current of 4–8 μA and an α-particle beam energy of 28.8 MeV. The target was then dissolved in HNO 3 and the extraction of 211 At was investigated into a variety of organic solvents in 1–3 M HNO 3 . Extraction of 211 At with distribution ratios as high as 11.3 ± 0.6, 12.3 ± 0.8, 42.2 ± 2.2, 69 ± 4, and 95 ± 6 were observed for diisopropyl ether, 1-decanol, 1-octanol, 3-octanone, and methyl isobutyl ketone, respectively, while the distribution ratios for 207 Bi were ≤0.05 in all cases. The extraction of 211 At into both methyl isobutyl ketone and 3-octanone showed a strong, linear dependence on the HNO 3 initial aqueous concentration and better extraction than other solvents. DFT calculations show stronger binding between the carbonyl oxygen of the ketone and the At metal center. 

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2. A search for chiral asymmetry in secondary electron emission from cysteine induced by longitudinally polarized electrons

   https://doi.org/10.1063/5.0156419  

   Ahrendsen, K J; Trantham, K W; Tupa, D; Gay, T J (August 2023, The Journal of Chemical Physics)

   We performed experiments searching for chirality-dependent secondary electron emission for a 141 eV longitudinally spin-polarized electron beam incident on a thick solid cysteine target. We determined the secondary electron yield by measuring the positive current produced when the cysteine target was negatively biased. No spin-dependent effects to a level of 10−3 were found for the secondary electron emission yield. 

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3. A High‐Resolution Speleothem Record of Marine Isotope Stage 11 as a Natural Analog to Holocene Asian Summer Monsoon Variations

   https://doi.org/10.1029/2019GL083836  

   Zhao, Xinnan; Cheng, Hai; Sinha, Ashish; Zhang, Haiwei; Baker, Jonathan_L; Chen, Shitao; Kong, Xinggong; Wang, Yongjin; Edwards, R_Lawrence; Ning, Youfeng; et al (August 2019, Geophysical Research Letters)

   Abstract A full‐spectrum characterization of past interglacial climate is a necessary prerequisite for the detection and attribution of climate changes during the current interglacial. Here we present a speleothem record of Asian summer monsoon (ASM) during Marine Isotope Stage (MIS) 11 interglacial (MIS 11c), from Yongxing cave, China. The record's unprecedented chronologic constraints and decadal‐scale temporal resolution allow a precise and direct comparison of ASM between the MIS 11c and the Holocene. Our data suggest that orbital‐centennial patterns of ASM were remarkably similar during both interglacial, including their pacing and structure. Notably, a multi‐millennial stronger monsoon late in MIS 11c, the “Late‐MIS 11c shift,” is similar to the Late Holocene strengthening of the ASM, the “2‐Kyr shift.” Thus, the multicentennial ASM weakening at the end of the Late‐MIS 11c shift could imply that the current century‐long ASM waning trend may persist into the future, if only natural forcings are considered. 

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4. Point-cloud based machine learning for classifying rare events in the Active-Target Time Projection Chamber

   https://doi.org/10.1016/j.nima.2024.170002  

   Dey, Poulomi; Anthony, Adam K; Hunt, Curtis; Kuchera, Michelle P; Ramanujan, Raghuram; Lynch, William G; Tsang, ManYee Betty; Wieske, Joseph M; Ajongbah, Jessica W; Beceiro-Novo, Saul; et al (March 2025, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment)

   In this work, we assess the use of machine learning to classify fission events in the Active Target Time Projection Chamber (AT-TPC) using data from an experiment performed at the National Superconducting Cyclotron Laboratory at Michigan State University. The experiment produces an extremely large quantity of data, less than 3% of which are fission events. Therefore, separating fission events from the background beam events is critical to an efficient analysis. A heuristic method was developed to classify events as Fission or Non-Fission based on hand-tuned parameters. However, this heuristic method places 5% of all events into an Unlabeled category, including 15% of all fission events. We present a PointNet model trained on the data labeled by the heuristic method. This model is then used to generate labels for the events in the Unlabeled category. Using the heuristic and machine learning methods together, we can successfully identify 99% of fission events. 

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5. Deployment of Water-based Liquid Scintillator in the Accelerator Neutrino Neutron Interaction Experiment

   https://doi.org/10.1088/1748-0221/19/05/P05070  

   Ascencio-Sosa, M; Bagdasarian, Z; Beacom, JF; Bergevin, M; Breisch, M; Caceres_Vera, G; Dazeley, S; Doran, S; Drakopoulou, E; Edayath, S; et al (May 2024, Journal of Instrumentation)

   Abstract The Accelerator Neutrino Neutron Interaction Experiment (ANNIE) is a 26-ton water Cherenkov neutrino detector installed on the Booster Neutrino Beam (BNB) at Fermilab. Its main physics goals are to perform a measurement of the neutron yield from neutrino-nucleus interactions, as well as a measurement of the charged-current cross section of muon neutrinos. An equally important focus is the research and development of new detector technologies and target media. Specifically, water-based liquid scintillator (WbLS) is of interest as a novel detector medium, as it allows for the simultaneous detection of Cherenkov light and scintillation. This paper presents the deployment of a 366 L WbLS vessel in ANNIE in March 2023 and the subsequent detection of both Cherenkov light and scintillation from the WbLS. This proof-of-concept allows for the future development of reconstruction and particle identification algorithms in ANNIE, as well as dedicated analyses within the WbLS volume, such as the search for neutral-current events and the hadronic scintillation component. 

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