Neutrino beams - PowerPoint PPT Presentation

Bridge members must support various loads and stresses. This presentation covers how loads are applied, how members are stressed, and how materials resist stress. It discusses different member types like beams/girders, simple beams, continuous beams, and columns/hangers. Stresses such as tension, co

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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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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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In the field of nuclear physics, high-quality ion beam parameters are essential for both primary and secondary beams. This report focuses on the cryogenic gas stopping cell, also known as a gas catcher, designed to transform rare ion beams from nuclear reactions into low-energy beams with small emit

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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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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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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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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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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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Beams play a crucial role in mechanical engineering, with two main types - statically determinate and indeterminate beams. Explore the definition of beams, loading types, and the concept of shear and moment diagrams to understand the behavior of beams under different loads and reactions. Learn how t

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This presentation discusses the manipulation and acceleration of electron beams through the use of dielectric-lined waveguides. It delves into motivations for accelerators, beam-driven acceleration, wakefields, transformer ratio, and the search for continuous smooth shapes in beam technologies. Vari

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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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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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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 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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The U.S. Department of Energy's Neutrino Program outlines significant changes and recommendations to pursue neutrino mass physics. These plans include international collaboration, short and long-baseline experiments at Fermilab, and the selection of small-scale experiments to address beyond the thre

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Scanning Electron Microscopes (SEMs) utilize focused electron beams to produce high-resolution images by interacting with a sample's electrons. The electron source, such as the electron gun, plays a crucial role in forming fine electron beams for imaging purposes. Different types of electron sources

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Test mass cryogenic suspensions with rigid beams pose conflicting requirements, such as thermal noise reduction and vibration attenuation. This study explores the use of compressive flexure beams as a solution to achieve flexibility without sacrificing thermal conductance. Compressional mode flexure

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Non-accelerator experiments in the field of neutrino physics are expected to yield significant results between 2022 and 2030. Projects like PINGU, ORCA, JUNO, RENO-50, INO, Hyper-K, and DUNE aim to study neutrino mass hierarchy, CP violation, and non-oscillation phenomena. The design and constructio

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Vietnam School on Neutrino is an annual event started in 2017 to promote experimental neutrino physics in Vietnam. Led by Prof. Jean Tran Thanh Van, the school focuses on lectures, software and hardware training, group works, and excursions. With a mix of students from various countries, the aim is

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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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Explore the concepts of strain gauges and resistors, how loading deforms beams, and Da Vinci's insights on spring bending. Learn about axial strain measurement, strain proportional to resistance change, bridge circuits, and formulas for cantilever beams. Understand the importance of strain gauge att

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The presentation discusses the challenges faced in designing an accumulator for high-intensity particle beams in neutrino experiments at ESS Lund, with a focus on beam loss management, injection efficiency, and intense beam physics issues. The design considerations include beam holding capacity, bea

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Brief history of atmospheric neutrino experiments leading to the creation of India Based Neutrino Observatory for further particle and astroparticle physics research. The facility aims to probe neutrino properties using underground laboratory and complementary efforts worldwide, with ICAL capability

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Michigan State University's National Superconducting Cyclotron Laboratory houses the Facility for Rare Isotope Beams, conducting experiments with over 1000 Radioactive Ion Beams. The project started in 2009, with reaccelerated beams reaching up to 12 MeV/u. Transitioning from NSCL to FRIB, the facil

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The ESS SB project focuses on intense muon beams for studying the Higgs-related scalar sector. Key components include production, accumulation, cooling, and collider rings for Higgs studies. With a practical Higgs factory in mind, the facility features high-intensity H-source, p-compressor rings, io

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New TPCs with resistive Micromegas technology for T2K near detector upgrade are enhancing neutrino beam monitoring and cross-section measurements. These upgrades focus on improving point resolution and efficiency with the introduction of finely segmented targets. The utilization of DLC in Micromegas

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Exploring the intricate relationship between non-standard interactions and neutrino oscillations in core-collapse supernovae reveals the crucial role played by neutrinos. These elusive particles, with their unique ability to pass through matter, hold the key to understanding the dynamics of supernov

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Main guidelines and structure of the agenda for the European Neutrino Community meeting in 2014, focusing on reviews, status of knowledge, theory talks, experimental methods, future projects, European activities, and more. The agenda covers topics like neutrino physics, CP violation, sterile neutrin

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Experimental plan to establish MNT reactions with slowed-down radioactive beams at the Super-FRS for heavy neutron-rich isotopes, focusing on a 1-day test with a near-stable secondary beam. Objectives include in-cell reactions with a 238U beam and proof-of-principle measurements. The proposal aims t

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Explore solutions and discussions on neutrinos in multimessenger astronomy through exercises from the 15th International Neutrino Summer School 2024. Topics covered include charged cosmic rays, direct and indirect cosmic ray detection, galactic accelerators, extragalactic sources, high-energy neutri

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Explore the background and program of the Vietnam Neutrino School 2022, focusing on experimental neutrino physics. Learn about the school's history, students, and the emphasis on hands-on training for future high-energy experiments.

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Explore the concept of shear stress in beams, the distribution resulting from bending moments, and the derivation of shear stress formulas in mechanics of materials. Understand the role of transverse shear forces and how they contribute to equilibrium in beams.

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Delve into the fascinating world of neutrino oscillations with this detailed exploration of the solar neutrino problem, flavor oscillation mechanisms, effective Hamiltonian modeling, and more. Discover the complexities behind neutrinos and their oscillatory nature in this informative resource.

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Delve into the realm of sterile neutrinos and their influence on long baseline experiments, as young scientist Niki Klop sheds light on oscillations, motivations, and the intriguing anomalies observed in neutrino experiments. Explore the dynamic interplay between mass eigenstates, neutrino flavor tr

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