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The conference will bring together scientists to discuss topics in particle and astrophysics, presenting data on nuclear physics, cosmology, and experimental physics.
Year:
2015
Region / City:
Moscow, Russia
Topic:
Particle Physics, Astrophysics, Nuclear Physics
Document Type:
Conference Announcement
Organ / Institution:
National Research Nuclear University “MEPhI”
Author:
Conference Organizing Committee
Target Audience:
Scientists, Researchers, and Students in Physics and Astrophysics
Period of Action:
October 5-10, 2015
Date of Approval:
Not specified
Date of Changes:
Not specified
Conference Website:
http://indico.cfr.mephi.ru/e/ICPPA2015
Conference Languages:
English, Russian
Format:
Invited Lectures, Contributed Talks
Sections:
Nuclear Physics, Particle Physics, Neutrinos and Astroparticle Physics, Cosmic Rays, Experimental Physics
Important Dates:
Not specified
Deadline:
Not specified
Conference Proceedings:
Indexed by Scopus
Accommodations:
Participants responsible for their own arrangements
Financial Support:
Partial travel support, registration fee waiver, free accommodation for selected participants
Visa Information:
Invitation letter available on request
Social Program:
Not specified
Further Information:
Available on the conference website
Price: 8 / 10 USD
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The file will be delivered to the email address provided at checkout within 12 hours.
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Document type:
Application guidance document
Subject area:
Particle astrophysics; gravitational waves
Funding body:
Science and Technology Facilities Council
Programme:
Particle Astrophysics Grants
Related collaboration:
LIGO Scientific Collaboration
Intended use:
Research grant application preparation
Structure:
Vision and approach overview with thematic sections
Scope:
Scientific themes, resource requests, and Advanced LIGO operations
Target audience:
Research institutions and grant applicants
Page limits:
Five pages for overview; two pages per FTE for each theme
Timeframe referenced:
Since April 2020; since 1 October 2021
Application components:
Vision, approach, themes, resources, governance, work plans, references
Year:
2014
Region / City:
N/A
Theme:
Science fiction, Astrophysics
Document Type:
Film description
Institution:
N/A
Author:
N/A
Target Audience:
General public, science enthusiasts
Period of Validity:
N/A
Approval Date:
N/A
Date of Changes:
N/A
Year:
2021
Region / City:
Sandwich, Kent, United Kingdom
Topic:
Inhaler technology, particle re-entrainment, coating substrates
Document Type:
Research Study
Organization / Institution:
Inhalytic LTD, Canterbury Christ Church University
Author:
Kelsey Cairns, Frank Chambers, Dr. Lee Byrne
Target Audience:
Researchers, pharmaceutical professionals
Period of Validity:
N/A
Approval Date:
N/A
Date of Changes:
N/A
Year:
2023
Region / city:
United Kingdom
Subject:
Physics
Document type:
Scheme of work
Author:
Not specified
Target audience:
GCSE Physics students
Period of application:
Not specified
Date of approval:
Not specified
Date of changes:
Not specified
Contextual description:
Educational scheme outlining the teaching approach for the Particle model of matter in GCSE Physics.
Year:
2021
Region / city:
Washington, DC
Theme:
Particle Identification Systems, IR Accelerator Systems
Document type:
Technical Specification
Organization / Institution:
Electron-Ion Collider Project
Author:
Various authors from Electron-Ion Collider
Target audience:
Researchers and engineers in particle physics
Effective Date:
Not specified
Date of approval:
Not specified
Date of changes:
Not specified
Year:
2025
Institutions:
Imperial College London, Technical University of Munich
Programme Type:
Joint Doctoral Programme
Theme:
Particle Pollution and Human Health Challenge
Programme Launch:
2020
Programme Duration:
4 years at TUM, 3 years at Imperial
Academic Leads:
Prof. Bob Shorten (Imperial), Prof. Dr. Percy Knolle (TUM)
Programme Management:
International Relations Office (Imperial), International Graduate School of Science and Engineering (TUM)
Target Audience:
Prospective doctoral candidates at Imperial and TUM
Application Requirements:
Joint PI proposals, cross-disciplinary projects, mobility between institutions
Research Fields:
Engineering, Science, Medicine, Business
Key Objectives:
Understanding micro/nanoparticle pollution, human health impacts, interdisciplinary collaboration
Start Date:
January 2026
Call Type:
Competitive application for doctoral projects
Year:
2020
Region / City:
Not specified
Subject:
Non-conformance
Document Type:
Report
Organization / Institution:
Not specified
Author:
JD, RR, HG
Target Audience:
Quality Assurance, Cleanroom Personnel
Period of Validity:
Not applicable
Approval Date:
2020-01-04
Date of Changes:
2020-01-20
Description:
Incident report detailing the exceedance of particle counts in a cleanroom on 2020-01-04, its investigation, and lack of impact on production or product.
Document type:
Application guidance document
Subject area:
Particle astrophysics; gravitational waves
Funding body:
Science and Technology Facilities Council
Programme:
Particle Astrophysics Grants
Related collaboration:
LIGO Scientific Collaboration
Intended use:
Research grant application preparation
Structure:
Vision and approach overview with thematic sections
Scope:
Scientific themes, resource requests, and Advanced LIGO operations
Target audience:
Research institutions and grant applicants
Page limits:
Five pages for overview; two pages per FTE for each theme
Timeframe referenced:
Since April 2020; since 1 October 2021
Application components:
Vision, approach, themes, resources, governance, work plans, references
Year:
2026
Region / City:
Moffett Field, CA; Cleveland, OH
Subject:
Air quality, filtration, space research
Document type:
Research report
Organization:
NASA Ames Research Center, NASA Glenn Research Center, Universities Space Research Association
Authors:
A. Nicolas Whitlock, Juan H. Agui, Gordon M. Berger, Robert D. Greene, Grace A. Belancik
Target audience:
Scientists, engineers, space research professionals
Period of validity:
Not specified
Approval date:
Not specified
Date of modifications:
Not specified
Context:
A research report focused on the testing of HEPA filters used on the International Space Station to measure efficiency and particle penetration.
Year:
2016
Region / City:
N/A
Topic:
Energetic Particle and Plasma Spectrometer Data
Document Type:
Software Interface Specification (SIS)
Institution:
Johns Hopkins University Applied Physics Laboratory, University of Michigan
Author:
George Ho, Lillian Nguyen, Michele Gannon, Michael Reid, Jim Raines
Target Audience:
Researchers and scientists working with MESSENGER data
Validity Period:
N/A
Approval Date:
2016-01-28
Modification Date:
N/A
Year:
2016
Note:
Region / city
Topic:
Energetic Particle and Plasma Spectrometer (EPPS) Data
Document Type:
Specification
Organization:
Johns Hopkins University Applied Physics Laboratory
Author:
Lillian Nguyen
Target Audience:
Researchers and scientists in planetary data systems
Year:
2023
Region / City:
Global
Theme:
Particle Measurement, Emission Regulations
Document Type:
Technical Regulation
Organization:
UNECE GRPE
Author:
Informal Working Group on the Particle Measurement Programme
Target Audience:
Vehicle Emission Experts, Engineers, Regulatory Bodies
Period of Validity:
Ongoing
Approval Date:
June 2020
Date of Amendments:
November 2022
Note:
Year
Subject:
Science
Document Type:
Worksheet
Target Audience:
Students
Year:
N/A
Region / City:
N/A
Topic:
Particle Physics
Document Type:
Homework Questions
Institution:
N/A
Author:
N/A
Target Audience:
Students
Period of Validity:
N/A
Approval Date:
N/A
Date of Changes:
N/A
Note:
Contextual description of the document
Authors:
Patrik Andersson; Simon Åslund; Marcus Skogevall; Stina Sjödin; Iain Fraser; Bodil Hakonen; Jan Olof Svensson
Affiliations:
Inhalation Product Development, Pharmaceutical Technology & Development, AstraZeneca, Gothenburg, Sweden; Chalmers University, Division of Chemistry and Biochemistry, Gothenburg, Sweden
Organization:
AstraZeneca; Chalmers University
City:
Gothenburg; Mölndal
Country:
Sweden
Type of document:
Scientific research article
Subject:
Determination of fine particle dose <5 µm in Dry Powder Inhalers and pressurized Metered Dose Inhalers
Equipment studied:
Refined-Fast Screening Impactor (R-FSI); Fast Screening Impactor (FSI); Next Generation Impactor (NGI); Andersen Cascade Impactor (ACI)
Products investigated:
Multidose Dry Powder Inhaler; Combination product pressurized Metered Dose Inhaler
Methodology:
Comparative impactor measurements with interpolation algorithms (Log-Linear and Log-Probit)
Measured parameter:
Fine Particle Dose (FPD<5 µm); Fine Particle Fraction (FPF)
Analytical technique:
UHPLC with internal standard methodology
Purpose:
Evaluation of equivalence between R-FSI and pharmacopeial cascade impactors for QC-release testing
Year:
2023
Region / City:
Not specified
Topic:
Particle analysis, Z-stack imaging
Document Type:
Dataset
Institution:
Not specified
Author:
Not specified
Target Audience:
Researchers in particle physics or imaging
Period of Validity:
Not specified
Approval Date:
Not specified
Date of Changes:
Not specified