№ files_lp_3_process_9_23080
File format: docx
Character count: 1399
File size: 25 KB
Quasi-differential neutron scattering experiments are designed to validate nuclear data evaluations used in fusion reactor neutronics calculations.
Year:
2023
Region / city:
Rensselaer, New York
Subject:
Neutron scattering, Fusion systems
Document type:
Research paper
Institution:
Rensselaer Polytechnic Institute, Department of Mechanical Aerospace and Nuclear Engineering
Authors:
Julian Driebeek, Yaron Danon
Target audience:
Scientists, researchers in nuclear engineering and fusion technology
Period of validity:
N/A
Approval date:
N/A
Date of changes:
N/A
Price: 8 / 10 USD
The file will be delivered to the email address provided at checkout within 12 hours.
The file will be delivered to the email address provided at checkout within 12 hours.
Don’t have cryptocurrency yet?
You can still complete your purchase in a few minutes:- Buy Crypto in a trusted app (Coinbase, Kraken, Cash App or any similar service).
- In the app, tap Send.
- Select network, paste our wallet address.
- Send the exact amount shown above.
The final amount may vary slightly depending on the payment method.
The file will be sent to the email address provided at checkout within 24 hours.
The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2023
Region / City:
Greenbelt, MD
Theme:
Remote Sensing, Calibration Targets, Earth Science
Document Type:
Research Paper
Institution:
NASA Goddard Space Flight Center
Author:
Georgi Georgiev, Joel McCorkel, Julia Barsi, Jessica Patel, Guangjun Gao, Elena Georgieva
Target Audience:
Researchers, Engineers, NASA Calibration Teams
Period of Validity:
Not specified
Approval Date:
Not specified
Date of Amendments:
Not specified
Year:
2016
Region / City:
Sydney
Topic:
Safety Procedures
Document Type:
Standard Operating Procedure
Organization / Institution:
The University of Sydney
Author:
Kwan, A. & FitzGerald, P.
Target Audience:
Laboratory Personnel
Period of Validity:
Ongoing
Approval Date:
Not specified
Amendment Date:
Not specified
Year:
2026
Region / City:
Global
Subject:
Atmospheric Physics and Remote Sensing
Document Type:
Lecture Notes
Institution:
University / Educational Organization
Author:
Unspecified Lecturer
Target Audience:
Students of Earth and Atmospheric Sciences
Period Covered:
Daily and Seasonal Atmospheric Radiation Cycles
Date Created:
2026-03-07
Main Topics:
Solar radiation, electromagnetic spectrum, scattering types, absorption bands, solid angle, flux definitions
Author:
Rebecca Lowen
Co-author:
Steven Neshyba
Date:
May 8, 2012
Institution:
University of Puget Sound
Department:
Department of Chemistry
Degree:
Bachelor of Science
Document Type:
Undergraduate thesis
Advisor:
Prof. Steven Neshyba
Subject:
Atmospheric science and optical properties of ice crystals
Research Focus:
Light scattering behavior of cirrus-like ice crystals
Methodology:
VP-SEM imaging and ray tracing simulations
Key Concepts:
Asymmetry parameter, phase function, surface roughness
Experimental Tools:
Variable pressure scanning electron microscope, MATLAB ray tracing models
Phenomena Studied:
Ice crystal growth, ablation, and surface roughening
Geographical Context:
Laboratory-based study
References Included:
Yes
Figures Included:
Yes
Table of Contents:
Yes
Year:
2026
Device:
Zetasizer Nano-S
Document Type:
User Manual / Quick Start Guide
Subject:
Dynamic Light Scattering Measurement
Target Audience:
Laboratory technicians and researchers
Content:
Instructions for initializing, running experiments, configuring measurement parameters, and exporting data
Software:
Zetasizer Software
Connection:
USB
Measurement Parameters:
Sample type, material, dispersant, temperature, cell, number of runs, analysis model
Data Handling:
Data export and configuration, record management, SOP-Player integration
Type of document:
Technical specification annex
Subject:
Design and manufacture of an oscillation system for a radial collimator
Intended use:
Neutron diffractometer for scanning deformations
Device:
Oscillation system of a radial collimator
Collimator type:
Horizontally and vertically convergent radial collimator
Horizontal angle range:
14.456 degrees
Vertical angle range:
12.27 degrees
Focal length L1:
170 mm
Number of channels:
31
Number of foils:
30
Middle foil length:
350 mm
Resolution at focus:
FWHM = 2 mm at neutron wavelength > 0.1 nm
Full width at half maximum:
2.00 mm × 0.669 degree
Total sample–detector distance:
1,000 mm
Oscillation range requirement:
At least three collimator apertures
Mechanical constraint:
Distance from detector arm to central horizontal detector axis 225 mm
Drive system:
Stepper motor with encoder
Controller compatibility:
Nanotec SMCI 33-2 or SMCI 47-S-2
Design documentation:
To be created by the supplier
Legal reference:
Act No. 134/2016 Coll., § 89, para. 6
Authors:
H. Akkurt; E. Wong
Affiliation:
Electric Power Research Institute (EPRI)
Addresses:
1300 West W.T. Harris Blvd., Charlotte, NC 28262, USA; 1325 G St. NW Suite 530, Washington, D.C. 20005, USA
Emails:
[email protected]
Organization:
Electric Power Research Institute (EPRI)
Topic:
Long-term monitoring and aging management of neutron absorber materials in spent fuel pools
Material Focus:
BORAL® and other metallic neutron absorber materials
Program Name:
Industrywide Learning Aging Management Program (i-LAMP)
Geographic Scope:
United States; Mexico; South Korea; Taiwan
Document Type:
Technical conference paper
Key Components:
SFP Water Chemistry Database; SFP Coupon Database; NAM data for SFPs with no coupons; Additional data and analysis needs
Data Collection Start:
October 2017
Planned Historic Data Completion:
End of 2019
Subject Matter:
Criticality safety margins; water chemistry monitoring; coupon analysis; sister pool criteria development
Authors:
Alex Howe; Marian Jandel; Daniel Fernandez; Aaron Fishbein; Elizabeth McCutchan; Shuya Ota; Stanislav Valenta
Affiliations:
Department of Physics and Applied Physics, University of Massachusetts Lowell, United States; Brookhaven National Laboratory, United States; Faculty of Mathematics and Physics, Charles University, Czech Republic
Scientific Field:
Nuclear physics
Topic:
Thermal neutron capture gamma-ray production on manganese
Reaction:
55Mn(n, γ)56Mn
Research Facility:
University of Massachusetts Lowell Research Reactor
Experimental Methods:
Irradiation of 55Mn and MnCl2 samples in a collimated thermal neutron beam; high-purity germanium detectors with Compton shielding
Calibration Standards:
152Eu; 35Cl(n, γ)36Cl
Energy Range:
0.1–10 MeV calibration; 2–8 MeV reported results
Purpose:
Measurement of gamma-ray intensities and production cross sections and comparison with nuclear data libraries and GEANT4 simulations
References Cited:
EPJ WoC (2020); Nuclear Data Sheets (2013); IAEA (2007); Nuclear Physics A (2025); Journal of Radioanalytical and Nuclear Chemistry (2023)
Year:
2023
Region / City:
Chongqing
Topic:
Nuclear Energy, Fusion Systems, Neutron Sources
Document Type:
Research Report
Organization:
FDS Consortium, International Academy of Neutron Science (Chongqing) Co., Ltd.
Author:
Chao Liu
Target Audience:
Researchers in nuclear energy, fusion technology, and neutron science
Period of Activity:
Ongoing
Approval Date:
Not specified
Modification Date:
Not specified
Year:
2021
Region / City:
Moscow, Russia
Topic:
Neutron flux attenuation, constructional materials, ITER reactor
Document type:
Research article
Organization / Institution:
Project Center ITER
Author:
D.S. Fridrikhsen, T.M. Kormilitsyn, S.Yu. Obudovsky, A.O. Kovalev, Yu.A. Kashchuk
Target audience:
Researchers, engineers in nuclear physics, materials science
Period of validity:
N/A
Approval date:
N/A
Date of changes:
N/A
Year:
2020
Region / city:
Moscow, Russia; Řež, Czech Republic; Prague, Czech Republic; Karlsruhe, Germany; Kharkov, Ukraine
Subject:
Nuclear materials, radiation damage, fusion reactor materials
Document type:
Research article
Institution / organization:
National Research Nuclear University “MEPHI”; Nuclear Physics Institute of the CAS; Charles University; Karlsruhe Institute of Technology; National Science Centre “Kharkov Institute of Physics and Technology”; Research Centre Řež
Authors:
O.V. Ogorodnikov, M. Majerle, J. Čizek, S. Simakov, V.V. Gann, P. Hruska, J. Kamenik, J. Pospisil, M. Štefanik, M. Vins, J. Štursa
Target audience:
Nuclear physicists, materials scientists, fusion reactor researchers
Experimental methods:
Positron-annihilation lifetime spectroscopy (PALS), transmission electron microscopy (TEM), nuclear reaction analysis
Materials studied:
Tungsten (W), molybdenum (Mo), iron (Fe), RAFM steels, ODS steels
Irradiation types:
High-energy protons, high-energy ions, high-energy neutrons, fission neutrons
Key focus:
Radiation-induced defects, helium and hydrogen retention, displacement per atom (dpa) comparison, fusion neutron simulation
Comparative analysis:
Fission neutrons vs. high-energy neutrons vs. energetic protons
Applications:
ITER and DEMO reactor material performance prediction
Temperature effects:
Influence on hydrogen retention and defect formation