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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Ongoing and future collaborations between the High-Performance Algorithm-System-Hardware Co-Design (HAC) team with Machine Learning and Analytics (MMA) and Neuroscience areas are outlined. Collaborations include merging Pylog and HLS4ML into IceCube experiments, utilizing SPVCNN and GNN for neutrino

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Explore the intriguing anomalies in particle physics discussed by Andreas Crivellin, shedding light on phenomena like the anomalous magnetic moment of the muon, X17 particle, and neutrino anomalies. Discover the latest research findings and potential implications for the future of physics.

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DUNE, a long-baseline Neutrino experiment, faces computational challenges in managing authentication and authorization requirements for its data management and computing operations. This involves evolving current schemes to accommodate the anticipated growth in data volume and distribution across mu

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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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Explore the neutron multiplicity measurement in muon capture on oxygen using Super-Kamiokande, a water-Cherenkov detector located underground in Japan. Gadolinium was added to enhance neutron tagging efficiency, aiding in Supernova observation, proton decay rejection, and more. Neutron signals are t

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Delve into the realm of neutrino physics, nuclear recoils, and other phenomena like sterile neutrino oscillations using detectors such as BSM and single-phase LAr inelastic NC/CC interactions. From NSI to Supernova-relevant cross-sections and accelerator-produced DM, this research journey covers a w

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The ICFA Neutrino Panel, established in 2013, has made significant contributions to the accelerator-based neutrino program. Through consultations with global neutrino communities and international meetings, the Panel has crafted a roadmap for future programs, emphasizing the complementarity of exper

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The workshop discussion highlighted the growing synergy between Astroparticle Physics and Geoscience, emphasizing the importance of precise understanding of the Geosphere for studying the Cosmos. Topics included Neutrino tomography, deep life exploration, optical fibers coupled with sensors, seismic

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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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The Deep Underground Neutrino Experiment (DUNE) aims to study neutrino oscillations using high-precision measurements with detectors like the Near Detector complex located downstream of the neutrino beam. Components such as ND-LAr and SAND play crucial roles in scanning energy spectra. SAND, a perma

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Exploring the effects of energy accumulation in materials in detectors for coherent neutrino scatter, dark matter searches, and superconducting sensors and qubits. Focus on condensed matter effects, responsivity, background, and a hypothesized universal condensed matter mechanism. Touches on energy

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Guidelines for accessing and ensuring safety within the Neutrino Platform Hall at CERN, including registration, permissions, safety trainings, required equipment, online trainings, access points, and safety team responsibilities. Access is granted through registration at CERN, completion of safety t

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Enhance potential and career prospects by jointly supervising PhD students in European and Japanese universities. Activities include organizing masterclasses, summer schools, outreach events, and providing co-supervision for PhD students in flavor and neutrino physics. Communication and outreach eff

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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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Linear Algebra plays a crucial role in various neutrino experiments, enabling solutions in weighted least squares, energy estimation in EXO-200, and signal processing in LArTPC detectors. From Cartesian coordinates to minimizing uncertainties, linear algebra techniques contribute significantly to da

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Nuclear decays and reactions, driven by weak interactions, are vital in stellar astrophysics. Various processes like bound-state beta-decay impact nucleosynthesis and cosmochronology. Specific processes in stars involve capture reactions, electron capture, and neutrino-nucleus interactions. Stellar

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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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Explore the cutting-edge research on atomic mass measurements of ultralow Q-value nuclei conducted at the University of Jyvaskyla. This research delves into various techniques such as Penning trap atomic mass spectroscopy and PI-ICR to study Q-values for reactions and neutrino studies. The investiga

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Explore the diverse experiences at Neutrino 2020, featuring plenary talks, poster sessions, virtual reality interactions, and engaging discussions via Slack. Learn about the block schedule, additional talks, and the online conference format with Q&A opportunities and poster competitions. Don't miss

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The ancillary structure analysis for the Horn A prototype at the Long-Baseline Neutrino Facility involves detailed documentation tracking, FEA projects, and design considerations such as conductor stiffness and spider loading. The analysis approach includes rigorous documentation and peer review pro

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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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Delve into the Daya Bay II project, encompassing the Jiangmen Underground Neutrino Observatory (JUNO), which secured a substantial funding commitment from the Chinese government. With construction slated to commence in 2015 and the first physics data expected by 2020, this ambitious venture has garn

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On Sept. 22, 2017, a high-energy neutrino event was observed by the IceCube Neutrino Observatory, potentially associated with a blazar. A search for anomalous EEE events during this period identified active telescopes and investigated coincident events. The significance of N-fold coincidences was di

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This file discusses the issues related to tritium production in the J-PARC neutrino beamline, particularly focusing on the tritium release from steel walls to cooling water and air. It highlights the concerns regarding potential serious problems in the future and the measures undertaken to address t

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Explore the ESSnuSB project's linac upgrade featuring beam pulsing schemes and modifications, aiming to provide an additional 5 MW of beam power for neutrino generation. The upgrade options, pulse structure, beam parameters at 2.5 GeV, and different pulsing schemes are detailed with images and descr

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International discussions are underway regarding the establishment of an international long-baseline neutrino facility and the need for comprehensive global support. The P5 report emphasizes the urgency of forming a new international collaboration to design and execute a Long-Baseline Neutrino Facil

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The search for dark matter (DM) is a crucial challenge across various physics fields due to the wide range of predicted masses and uncertainties. DM candidates include stable, neutral, cold, and weakly interacting particles, with potential types like axions, SIMP-like, and WIMP-like DM. Neutrino exp

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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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Atmospheric Heavy Neutral Leptons are being studied in neutrino telescopes to search for GeV Heavy Neutral Leptons, with a focus on their production in cosmic showers, flux at detectors, and signals from decay. Research explores minimal and non-minimal scenarios, revealing opportunities to probe a w

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Funding cuts have impacted DHCAL activities for neutrino research, leading to limited progress. However, there is interest in utilizing existing technology for neutron yield measurements and muon energy evaluations. Efforts include addressing neutron interactions, optimizing materials, and revamping

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CATIROC is a smart readout ASIC developed for experiments like JUNO, a neutrino observatory. With applications in photon counting, energy measurement, and data processing, CATIROC offers advanced features such as charge and time measurements, digital data conversion, and trigger outputs for improved

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Explore the implications of late-time neutrino emission on the Diffuse Supernova Neutrino Background (DSNB) through core collapse supernovae simulations. The research delves into the dynamics of neutrino emission in different phases of supernova events and its relevance to understanding the DSNB.

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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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The review of cryogenics performance at the Long-Baseline Neutrino Facility highlighted the priority given to cryogenics testing on ProtoDUNE. The comprehensive commissioning plan includes testing of the cryostat, cryogenics, and detectors, with a focus on data collection and simulation validation.

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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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India-Based Neutrino Observatory (INO) aims to study neutrino properties using experiments like ICAL with RPCs. This work focuses on simulating streamer probability in RPCs using eco-friendly gas mixtures to replace R134a. Various simulation tools are employed to model streamer behavior and primary

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The MOMENT study, initiated in 2013 in China, focuses on muon-decay medium baseline neutrino beam facility development. Using a Continuous Wave (CW) proton linac, the project aims to achieve 15 MW beam power for neutrino cross-section measurements and CP phase study. Recent progress includes the suc

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The JUNO experiment aims to achieve a 3% energy resolution at 1 MeV by utilizing a stereo-calorimetric system with large and small PMT systems. The motivation for stereo calorimetry in JUNO is to improve energy resolution beyond current LS-based neutrino experiments and control non-stochastic term u

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