Positron emission particle tracking : a comprehensive guide /

Positron Emission Particle Tracking (PEPT) is a technique which allows the three-dimensional, internal dynamics of opaque systems to be imaged with high temporal and spatial resolution. This book provides both an accessible introduction to, and a comprehensive reference guide for the PEPT technique.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Windows-Yule, Kit (Autor), Nicuşan, Leonard (Autor), Herald, Matthew T. (Autor), Manger, Samuel (Autor), Parker, David (David J.) (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2022]
Colección:IOP (Series). Release 22.
IOP ebooks. 2022 collection.
Temas:
Positrons > Emission.
Particle tracks (Nuclear physics)
Nuclear physics.
Instrumentation and measurement.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 0. Using the book
  • 0.1. The 'user'
  • 0.2. The 'researcher'
  • 0.3. The 'developer'
  • 0.4. The 'expert'
  • part I. Introduction and background knowledge. 1. Imaging particulate and multiphase systems
  • 1.1. Particulate and multiphase systems : why do they matter?
  • 1.2. The importance of imaging
  • 1.3. Particle and flow imaging : an overview
  • 2. The fundamentals of PEPT
  • 2.1. Positron emission ...
  • 2.2. ...particle tracking
  • 2.4. Not just particle tracking
  • 3. A history of PEPT
  • 3.1. Adding the 'P' : from PET to PEPT (origins-to 1989)
  • 3.2. MWPC PEPT (1989-1999)
  • 3.3. Out with the old, in with the new (1999-2002)
  • 3.4. Positron cameras of all shapes and sizes (2002-present)
  • 3.5. PEPT elsewhere
  • 3.6. The future--SuperPEPT, MicroPEPT and beyond
  • 4. Comparison with other techniques
  • 4.1. Quasi-two-dimensional techniques
  • 4.2. Tomographic techniques
  • 4.3. Three-dimensional particle-tracking techniques
  • 4.4. Non-imaging techniques
  • 4.5. Numerical simulation
  • 4.6. Other techniques
  • part II. The PEPT technique in detail. 5. Tracers and detectors
  • 5.1. Creating tracers
  • 5.2. Detector systems
  • 5.3. Modelling PEPT systems
  • 6. Pre-processing : PEPT data and algorithms
  • 6.1. Understanding PEPT data
  • 6.2. Available algorithms
  • 6.3. From finding tracers to tracking trajectories
  • 6.4. Horses for courses : comparing algorithm capability for differing tasks
  • 7. Post-processing : extracting physical information from PEPT data
  • 7.1. Particle trajectories
  • 7.2. Occupancy and density
  • 7.3. Binary occupancy distributions and segregation
  • 7.4. Velocity
  • 7.5. Diffusion, dispersion and mixing
  • 7.6. Energy and the granular temperature
  • 7.7. Shear rate
  • 7.8. Jump velocities
  • 7.9. System-specific quantities
  • part III. Applying the PEPT technique. 8. Applications
  • 8.1. Vibrated systems
  • 8.2. Rotating drum systems
  • 8.3. Fluidised beds
  • 8.4. Stirred tanks
  • 8.5. Mills
  • 8.6. Industrial mixers
  • 8.7. Other systems
  • 8.8. Nascent applications
  • 9. Future outlook
  • 9.1. Future detector systems
  • 9.2. Future tracers
  • 9.3. Future algorithms
  • 9.4. New applications for PEPT
  • 10. Accessing a PEPT facility
  • Appendix A. Python tutorial.

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