Delve into the realm of transient astrophysical events with NASA's General Coordinates Network (GCN). Dr. Eric Burns from LSU, along with the GCN team, facilitates real-time alerts and groundbreaking discoveries in astrophysics. Witness the evolution of GCN to serve new transients, messengers, and o

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PIP-II is a partnership involving various international institutions such as US-DOE, India-DAE, Italy-INFN, UK-STFC-UKRI, France-CEA, and more. The mission of PIP-II is to upgrade Fermilab's accelerator complex to enable the world's most intense beam of neutrinos and sustain a broad physics program

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Neutrinos, elusive particles, have 3 weakly interacting fields and oscillate between interaction and mass eigenstates. The Neutrino Mass Ordering (NMO) remains unknown with various hypothesis explored. The determination of NMO is crucial and methods utilizing matter effects and event rate asymmetry

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The universe is a vast expanse consisting of various components. Only 0.4% comprises galaxies, while hydrogen, helium, protons, neutrons, and electrons make up 4%. The remaining 96% includes photons, neutrinos, dark matter, and dark energy. Photons, fundamental particles of light, exhibit different

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Methodology, characteristics, and interactions of Fundamental Particles (FPs) in the Unified Field Theory proposed by Osvaldo Domann are explored. The theory covers the unified field for all forces, quantum laws, momentum quantification, and more. It introduces the concept of Fundamental Particles m

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Neutrinos, the lightest and most abundant massive particles in the Universe, play significant roles in cosmic evolution. Their effects on large-scale structure, constraints on mass, and implications for fundamental questions provide valuable insights into the Universe's past and future research dire

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The European Strategy Update in 2013 identified the long-baseline neutrino program as a key objective, leading to the formation of the DUNE collaboration. The upcoming update in 2020 aims to prioritize DUNE in the European neutrino program. The collaboration involves global partners aiming to addres

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The study at DUNE focuses on discriminating signals for neutron-antineutron oscillation sensitivity, aiming to measure CP violation and explore BSM physics. DUNE uses a Liquid Argon Time Projection Chamber to search for antineutron annihilation in nuclei, branching ratios, and interaction products s

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In this collection by Tim Johnson, Libby McCutchan, and Alejandro Sonzogni from the National Nuclear Data Center, various aspects of nuclear data needs and beta-delayed neutron covariances are discussed. Topics include different radiation types, gamma decay heat, beta transitions, antineutrinos, and

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Physics goals for neutrino detectors in the NuStorm project include measuring exclusive neutrino cross sections, supporting long baseline programs, searching for sterile neutrinos, and improving measurements. Detector requirements involve reconstructing neutrino interactions, providing charge and pa

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Delve into the enigmatic world of neutrinos with a focus on their elusive properties like mass hierarchy, additional light neutrinos, and impact on cosmic background. Explore the unresolved questions surrounding neutrino physics from cosmological perspectives.

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Plutonium can be clandestinely removed from reactors for nuclear weapons, with neutrinos emitted by reactors providing insights into core contents. Neutrino detectors require high efficiency, energy resolution, and strategic placement. Although detectors meeting these criteria exist, they are not al

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This content covers observational techniques, student talks, and dates related to various astronomical topics such as gamma-ray astronomy, basics of gamma-ray interaction, scintillators and solid-state detectors, Compton telescopes, and pair telescopes. It provides insights into the main processes i

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Understanding the mysteries of ultra-high-energy cosmic rays and the connection to cosmic neutrinos is a pivotal quest in astrophysics. The GRANDProto300 experiment in LengHu, QingHai province, China, aims to detect cosmic neutrinos using the Giant Radio Array for Neutrino Detection. The experiment

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Updates from the AF2 program on accelerator capabilities for neutrino physics, including community workshops, white papers, and plans for further development. Discussions on current needs, development areas, and collaborations with artificial neutrino sources. Focus on PIP-II exploitation and enhanc

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The Accelerator Frontier Panel discusses the crucial components to enable future accelerators, emphasizing the need for a National Future Collider R&D Program, General Accelerator R&D, and adequate accelerator and test facilities. The message stresses the importance of an integrated future collider

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Delve into the exploration of ultra-high-energy cosmic rays and cosmogenic neutrinos in the quest to uncover new physics phenomena. Examining the GZK limit, cosmic accelerators, detection methods, and the potential for detecting tau neutrinos in Earth, this seminar presents a comprehensive overview

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Delve into the world of neutrino mass ordering, from the methods of measurement to the significance of Normal versus Inverted Ordering. Discover how determining the mass hierarchy impacts our understanding of physical interactions, cosmology, decay processes, and more. Uncover the latest updates on

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Combining appearance probabilities of electron and anti-electron neutrinos in long-baseline experiments can help determine the mass hierarchy, with ongoing experiments collecting significant data by 2020. Analyses point to CP violation possibilities, with updates expected in Neutrino2016. The capabi

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This content delves into the evolving landscape of solar neutrinos, covering key milestones such as the establishment of flavor conversion by SNO in 2002, direct measurement of pp-neutrinos by BOREXINO in 2014, and the identification of the LMA MSW solution by KAMLAND in 2004. It explores the intric

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The deployment of a neutrino detector in space presents a unique opportunity to conduct groundbreaking scientific research, leveraging the intense neutrino flux closer to the Sun. Key areas of focus include studying rare fusion neutrinos, observing neutrino oscillations during spacecraft transitions

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This research study delves into the realm of neutrino transport in holography, focusing on the interaction of neutrinos with dense QCD matter in the core. Motivations, formalisms, holographic set-up, and the holographic correspondence are explored using a toy model of quark matter in 4SYM and utiliz

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Delve into the fascinating world of elementary particles, where quarks form the basis of protons and neutrons in the nucleus, alongside electrons. Discover a diverse array of particles such as muons, neutrinos, and quarks, each with unique properties of charge and mass. Uncover the significance of t

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Neutrino physics involves studying mass, mixing, and flavor symmetries, which present new challenges when dealing with multiple neutrinos. The discussion includes neutrino states, mixing matrices, flavor content, vacuum mixing, standard parametrization, mixing angles, global fits, and the Tri-bimaxi

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Exploring the concept of Feynman diagrams in particle physics through various examples, such as the decay of particles like neutrons, protons, electrons, anti-neutrinos, pi-mesons, and more. The diagrams illustrate the interactions between quarks and leptons, showcasing the transformations and decay

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Doojin Kim presents research on non-relativistic dark matter search, focusing on weakly interacting massive particles (WIMPs) and generic boosted dark matter (BDM) signatures at the Terascale Meeting in Strasbourg. The study explores various scenarios and production models for detecting elusive dark

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Delve into the study of cosmic neutrinos with the Hyper-Kamiokande detector at Ecole Polytechnique. Enzo Forestier, a motivated student, combines his passion for physics, space science, and meteorology with Japanese language skills. Through research projects ranging from rocket engines to satellite

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