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1. State of the Climate in 2022

   https://doi.org/10.1175/2023BAMSStateoftheClimate.1  

   Blunden, J; Boyer, T; Bartow-Gillies, E (September 2023, Bulletin of the American Meteorological Society)

   Abstract Editors note: For easy download the posted pdf of the State of the Climate in 2022 is a low-resolution file. A high-resolution copy of the report is available by clickinghere. Please be patient as it may take a few minutes for the high-resolution file to download. 

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2. State of the Climate in 2020

   https://doi.org/10.1175/2021BAMSStateoftheClimate.1  

   Blunden, J.; Boyer, T. (August 2021, Bulletin of the American Meteorological Society)

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   Abstract Editors note: For easy download the posted pdf of the State of the Climate in 2020 is a very low-resolution file. A high-resolution copy of the report is available by clicking here . Please be patient as it may take a few minutes for the high-resolution file to download. 

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3. General mass variable flavor number scheme for $Z$ boson production in association with a heavy quark at hadron colliders

   https://doi.org/10.1103/PhysRevD.110.114030  

   Guzzi, Marco; Nadolsky, Pavel; Reina, Laura; Wackeroth, Doreen; Xie, Keping (December 2024, Physical Review D)

   We present a methodology to streamline implementation of massive-quark radiative contributions in calculations with a variable number of active partons in proton-proton collisions. The methodology introduces and heavy-quark parton distribution functions (PDFs) to implement calculations in the Aivazis–Collins–Olness–Tung (ACOT) factorization scheme and its simplified realization in various processes up to the next-to-the-next-to-leading order in the QCD coupling strength. Interpolation tables for bottom-quark subtraction and residual distributions for CT18 NLO and NNLO PDF ensembles are provided in the common LHAPDF6 format. A numerical calculation of $Z$-boson production with at least one $b$jet at the Large Hadron Collider beyond the lowest order in QCD is considered for illustration purposes. Published by the American Physical Society2024 

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4. Supplementary Information for: Large changes in biomass burning over the last millennium inferred from paleoatmospheric ethane in polar ice cores

   Melinda R. Nicewonger, Murat Aydin (December 2018, Proceedings of the National Academy of Sciences of the United States of America)

   This PDF file includes: Supplementary text Figs. S1 to S7 (Figs. S1 through S5 are referenced in the main manuscript) Tables S1 to S6 (Tables S1 through S3 are referenced in the main manuscript) References for SI reference citations 

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5. Evidence of Coherent Elastic Neutrino-Nucleus Scattering with COHERENT’s Germanium Array

   https://doi.org/10.1103/PhysRevLett.134.231801  

   Adamski, S; Ahn, M; Barbeau, P S; Belov, V; Bernardi, I; Bock, C; Bolozdynya, A; Bouabid, R; Browning, J; Cabrera-Palmer, B; et al (June 2025, Physical Review Letters)

   We report the first detection of coherent elastic neutrino-nucleus scattering (CEvNS) on natural germanium, measured at the Spallation Neutron Source at Oak Ridge National Laboratory. The Ge-Mini detector of the COHERENT collaboration employs large-mass, low-noise, high-purity germanium spectrometers, enabling excellent energy resolution, and an analysis threshold of 1.5 keV electron-equivalent ionization energy. We observe an on-beam excess of ${20.6}_{-6.3}^{+7.1}$counts with a total exposure of 10.22 GWhkg, and we reject the no-CEvNS hypothesis with $3.9\sigma$significance. The result agrees with the predicted standard model of particle physics signal rate within $2\sigma$. Published by the American Physical Society2025 

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