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European Spallation Source Neutron Instrument Project Overview

The European Spallation Source (ESS) Neutron Instrument Project aims to develop 15 world-leading neutron instruments by 2023. The project involves instrument classes, performance targets, budget considerations, and a planned schedule for instrument commencement. The NSS project scope includes reduci

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Exploration of Single Neutron Transfer on 68Ni at ISOLDE Workshop

Delve into the research on single-neutron transfer on 68Ni conducted by Andreas Ceulemans at the ISOLDE Workshop and Users Meeting in November 2023. The investigation focuses on the significance of studying nickel isotopes, the magicity and collectivity near 68Ni, and the use of shell model calculat

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Exploring Neutron Stars: Discoveries and Characteristics

Neutron stars, initially proposed in 1933, have been the subject of various discoveries and studies. They are characterized by their unique properties such as compactness, high density, rapid spinning, and strong magnetic fields. Neutron stars are predominantly composed of neutrons, with other parti

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Understanding Exponential Decay in Ibuprofen Dosage

Explore the concept of exponential decay using an example of ibuprofen dosage elimination from the bloodstream. Learn how to calculate the remaining dosage at different time intervals based on the decay rate. Discover the relation between the initial dosage, elimination rate, and time passed.

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Understanding Radiation and Radioactivity in Science

Radiation is energy in transit, while radioactivity is the emission of ionizing radiation by materials. This process involves ionization, which removes electrons from atoms, leading to various nuclear decay processes such as alpha decay, beta decay, gamma-ray emission, positron decay, electron captu

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Estimation of Dead-Time Loss for Neutron Count-Rates

This study discusses the estimation of dead-time loss for high neutron count-rates and the associated multiplicity correction using multi-channel list-mode data. The numerical method for high count-rate dead-time correction in neutron multiplicity counting is described, focusing on the use of multi-

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Neutron Multiplicity Measurement in Muon Capture on Oxygen in Super-Kamiokande

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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Advanced Fission Experiments at University of Michigan

The University of Michigan, under the guidance of Dr. Sara A. Pozzi, conducts cutting-edge fission experiments leveraging organic scintillation detectors. These detectors offer advantages such as nanosecond-scale response times, energy proportionality, and scalability. The experiments focus on impro

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Enhanced Directional Extraction of Very Cold Neutrons Using Diamond Nanoparticle Reflector

Alexander Nezvanov, a researcher at Frank Laboratory of Neutron Physics, presented a study on enhanced directional extraction of very cold neutrons using a diamond nanoparticle powder reflector. Very cold neutrons (VCN) have unique properties making them ideal for various applications in neutron tec

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Nuclear Physics Research Highlights: Neutron Stars, Nuclear EOS, and Pb Isotope Studies

Explore cutting-edge research in nuclear physics, including experiments on pion ratios and Pb isotope radius measurements, neutron star observations, neutron density distributions of Pb isotopes, and polarized proton beams at Osaka University. Learn about the analysis of realistic point proton densi

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Workshop on Neutron Electric Dipole Moment: Theory to Experiment

Workshop on Neutron Electric Dipole Moment: Theory to Experiment will be held in Trento from August 1st to August 5th, 2022. The event aims to bridge the gap between theory and experiment in investigating the neutron EDM in Lattice QCD, Phenomenology, and Cosmology. Renowned speakers and financial s

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Calculation and Validation of Thermal Neutron Diffusion Length in Water at Elevated Temperatures

This research focuses on the validation of thermal neutron diffusion experiments in water at elevated temperatures. Various methods, including the pulsed-neutron die-away and static relaxation length methods, were used to determine the diffusion length (L). Through linear and power fits based on dat

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Insights into Neutron Stars: Observations and Implications

Exploring the fascinating realm of neutron stars through astronomical observations and the implications for equations of state (EOS). Delve into the mysteries of neutron star properties, measurement results from projects like PREX/CREX, and the significance of NS masses, tidal deformabilities, and r

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Advancing Neutron Sources for Complementary Experiments at DONES

Exploring further potential for utilizing fast neutron sources, the DONES project aims to expand its scope beyond fusion materials studies. The ELAMAT Consortium, spearheading the bid for hosting DONES in Poland, envisions incorporating additional scientific areas for complementary research. Complem

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Understanding Reactor Start-up and Neutron Multiplication in Subcritical Reactors

Reactor start-up is a crucial operation that transitions a reactor from a subcritical state to a critical state by carefully adjusting reactivity levels. In a subcritical reactor, the neutron density should decrease over time but may not reach zero due to certain factors. Neutron multiplication fact

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Exploring Dark Matter in Neutron Stars

Investigate the interaction of dark matter within neutron stars, comprising approximately 25% of the universe's total matter. The nature of dark matter assumptions, its distribution within neutron stars based on fermionic or bosonic properties, and the implications for self-interacting fermionic and

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Comparison of New and Old Cave Configurations in Neutron Ball Testing

This content discusses the comparison between the new and old cave configurations in the Neutron Ball testing part II. It showcases images and descriptions of the different cave configurations, highlighting the progress in research at the Cyclotron Institute. The Neutron Ball's functionality and tes

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Understanding Multiple Scattering Programs in Fortran for Neutron Diffraction and Inelastic Analysis

Multiple scattering programs like MSCAT and DISCUS, written in Fortran since the 70s, are essential tools for neutron diffraction and inelastic analysis. These programs allow for the calculation of neutron cross-sections, scattering angles, and sample geometries. The results obtained include elastic

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Integrating OpenContrail into Neutron Stadium - Networking Advancements

Integrating OpenContrail into Neutron Stadium introduces Networking-OpenContrail, bridging OpenContrail with Neutron to enhance network functionality. The project aims to achieve full parity between the two platforms, with active contributors encouraged to join the development efforts. Deployment op

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Importance of Oral Hygiene and Preventing Tooth Decay in Children

Understanding the significance of oral hygiene and preventing tooth decay in children is crucial for their overall health. By learning about dental plaque, causes of tooth decay, effective teeth brushing techniques, and the impact of sugary foods and drinks, children can take steps to maintain good

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Analysis of Tune Variation and Decay in Large Hadron Collider

This analysis focuses on the tune variation and decay of the bare machine tune in the Large Hadron Collider. It covers the evolution of the bare tune, analysis of the tune decay after injection, fitting of decay constants, and data extraction from 2015. The study includes insights into beam commissi

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Insights on Double Neutron Star Formation in Our Galaxy

Detailed examination of the formation of double neutron stars in the Milky Way Galaxy, exploring various merging channels, uncertainties in binary evolution, and models compatible with gravitational wave observations. Emphasis on testing and constraining models with Galactic double neutron stars.

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Understanding Radioactive Decay and Isotopes in Chemistry

Explore the fascinating world of radioactive decay, isotopes, and nuclear transformations in this educational resource. From reviewing atomic numbers to illustrating alpha and beta decay processes, discover the fundamental principles behind these phenomena with detailed explanations and visuals. Del

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Advancements in Neutron Cooling Techniques and Paramagnetic Systems

The presentation discusses cascaded cooling of neutrons and Namiot's proposal for phononless cooling to low temperatures using polarized deuterons. It explores inelastic scattering cross-sections, candidate paramagnetic systems, and excitations in O2. Additionally, it covers rate constants, superflu

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Theoretical Calculations of Beta-Delayed Neutrons and Sensitivity Analyses

In this talk by Futoshi Minato from JAEA Nuclear Data Center, topics covered include delayed neutron emission probabilities, incident neutron energy dependence, sensitivity analysis with JENDL evaluated libraries, and important precursors in r-process nucleosynthesis. Theoretical calculations are pr

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Evaluation of MURR Thermal BNCT Facility for Canine Nasal/Sinus Tumor Treatment

The study evaluates the MURR Thermal BNCT Facility's effectiveness in treating canine nasal/sinus tumors using a phantom. The facility, located at the University of Missouri Research Reactor, offers Boron Neutron Capture Therapy (BNCT) under the direction of Dr. Fred Hawthorne. Key features include

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Insights into Beta-Delayed Neutron Covariances by Tim Johnson, Libby McCutchan, and Alejandro Sonzogni

Comprehensive analysis and visualization of beta-delayed neutron covariances, fission yields, and their implications in nuclear physics applications. The research covers calculations of delayed nu-bar, neutron probabilities, and recommendations for various systems. Disagreements in fission yields fo

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Understanding Radioactive Decay and Half-Life in Nuclear Chemistry

Exploring the concept of radioactive decay and half-life in nuclear chemistry, this content covers the types of nuclear radiation, alpha decay of Uranium, and the significance of half-life in determining the decay of radioactive substances such as Carbon-14. An example with Fluorine-18 illustrates t

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Overview of vRouter Implementation in Openstack Neutron

Virtual router (vRouter) is a crucial component in network virtualization, with applications in cloud environments like Openstack Neutron. This article delves into the concept of vRouter, its importance in IPv6 implementations, and the utilization of VM-based vRouters. It also explores the current s

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Neutron Radiation Measurement Guidelines and Techniques

Understanding neutron detection basics, absorption cross-section, moderators, positioning, and common detector types is crucial for accurate measurements. Neutrons vary in energy levels, requiring specific detection techniques. Thermal neutrons are easier to detect than fast ones, with materials lik

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Neutron Production Reactions at ILC - Applications and Estimations

Neutron production reactions at the International Linear Collider (ILC) involving nuclear reactions, photo-nuclear reactions with light and heavy nuclei, estimation of neutron production using gamma irradiation on Be-9, and application prospects. Cross-sections, energy inputs, and conversion rates a

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Monte Carlo Simulation of GEM-Based Neutron Detector and Detector Performance Analysis

A detailed exploration of Monte Carlo simulations for GEM-based neutron detectors, investigating their detection efficiency and performance characteristics. Various detector designs and concepts, including multi-layer converters and GEM detectors, are discussed, along with simulation results on sign

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Development of NS-GEM Neutron Spectrometer for Fusion Plasmas

This project focuses on developing a compact neutron spectrometer, NS-GEM, using gas electron multiplier detector technology for fusion plasma applications. The goal is to achieve high energy resolution, low sensitivity to γ-rays, and high count rate capabilities for accurate neutron measurements.

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Neutron Star Mergers and Ultra Heavy Element Cosmic Rays: Exploring Their Connection

Delve into the intriguing link between neutron star mergers and the synthesis of ultra heavy element cosmic rays. The rapid neutron capture process, known as r-process, plays a crucial role in creating elements heavier than iron through events like neutron star mergers and core-collapse supernovae.

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Recent Advancements in Neutron Standards Evaluation

Recent work by Allan D. Carlson, a NIST associate under contract with BNL, was presented at the CSEWG meeting discussing possible changes to neutron standards and showcasing important measurements, such as H(n,n)H angular distribution data by Jiang et al. and 6Li(n,t) reaction measurements by Bai et

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Systematic Reduction of Proton-Removal Cross Section in Neutron-Rich Medium-Mass Nuclei

Single-nucleon knock-out reactions in neutron-rich medium-mass nuclei were studied to investigate the reduction of proton-removal cross section. Short-range correlated nucleon pairs, especially protons, were found to impact the probability of single-proton removal processes. Experimental measurement

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Numerical Method for High Count-Rate Dead-Time Correction in Neutron Multiplicity Counting

Neutron detectors in safeguards utilize multi-channel list-mode recorders for advanced dead-time correction, improving data analysis. The method involves estimating lost pulses and correcting multiplicity histograms to enhance counting accuracy. Through an iterative process, dead-time probabilities

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High-Temperature Radiation Embrittlement of Neutron-Irradiated Austenitic Stainless Steels

The study investigates the high-temperature radiation embrittlement (HTRE) of neutron-irradiated austenitic stainless steels 18Cr-10Ni-Ti, EI-847, EP-172, and ChS-68. The impact of chemical composition, cold work, and irradiation temperature on short-term mechanical properties was examined. Experime

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Exploring Pasta Phase in Neutron Stars: Upper Limits and Observational Effects

Investigating the impact of pasta phase on neutron star observables, this research by William Newton, Michael Gearheart, Josh Hooker, and Bao-An Li discusses the crust composition, transition densities, and compressible Liquid Drop Model (CLDM). The study explores the uncertainties in symmetry energ

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Biphasic Decay of Infectious SARS-CoV-2 Population

This study analyzes the biphasic decay of infectious SARS-CoV-2 populations on different surfaces. The data shows variations in the decay rates of the virus on materials such as glass, banknotes, stainless steel, plastic, and mask layers. The findings reveal differing half-lives and decay patterns,

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