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Neutron Detectors for Scattering Applications de Yacouba Diawara

Neutron Detectors for Scattering Applications: Particle Acceleration and Detection

Editat de Yacouba Diawara
en Limba Engleză Hardback – 5 aug 2023
This book covers the most common neutron detectors used in neutron scattering facilities and all of those in use at Oak Ridge National Lab. It starts describing the facilities, instruments and the critical detector parameters needed by various instruments. Then the key components of the 3He-based linear position-sensitive detectors as well as on their electronics, which require particular attention to signal processing and noise reduction, are introduced. One chapter is dedicated to the 3He alternatives where scintillators play a critical role. It also covers emerging neutron detection technologies including semiconductors, vacuum-based devices and their associated readouts, which will be required in the future for high rate and high-resolution neutron detectors.
The authors explain the logic behind the choice of materials as well as the various constraints that neutron detectors must respect to be useful. Some of these constraints, such as efficiency and gamma-ray sensitivity are common to all neutron counters while others, like timing resolution, dynamic range, and peak counting rate, depend on the applications.
The book guides experts, the nuclear science community, and young scholars through the physical processes and the required electronics in a way that is accessible for those not professionally involved in designing detector’s components and electronic circuits.
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Specificații

ISBN-13: 9783031365454
ISBN-10: 3031365453
Pagini: 246
Ilustrații: XVI, 246 p. 1 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.61 kg
Ediția:1st ed. 2023
Editura: Springer Nature Switzerland
Colecția Springer
Seria Particle Acceleration and Detection

Locul publicării:Cham, Switzerland

Cuprins

Chapter 1. Neutron Scattering, Sources, and Instruments (Kevin D. Berry).- Chapter 2. Neutron Detection Materials, Detector Properties, and Selection (Kevin D. Berry).- Chapter 3. Gas-Based Detectors (Justin Beal).- Chapter 4. Scintillator-Based Detectors (Matthew Loyd).- Chapter 5. Other Detectors (Yacouba Diawara).





Notă biografică

Dr. Yacouba Diawara is currently the Detector Group leader at the Spallation Neutron Source. He received his Bachelor's in Electrical Engineering and a M.Sc in Physics, both from the University of Québec at Trois-Rivières (Canada). He completed his PhD in Engineering Physics from Montréal Ecole Polytechnique and held a postdoctoral fellowship at INRS-Energie (Canada).
As a research scientist, he has led several R&D or Engineering Groups for different organizations such as the Montréal Ecole Polytechnique, Bruker AXS (Madison, WI), the Spallation Neutron Source (Oak Ridge, TN), IAEA Nuclear Science and Instrumentation laboratory Head (Vienna, Austria) and the DOE NBL Program office Director. These different Groups developed many commercial radiation (x-ray, gamma-ray, charged particle and neutron) detectors and processes which are currently used in scientific instruments, research reactors and accelerator-based beamlines.


Textul de pe ultima copertă

This book covers the most common neutron detectors used in neutron scattering facilities and all of those in use at Oak Ridge National Lab. It starts describing the facilities, instruments and the critical detector parameters needed by various instruments. Then the key components of the 3He-based linear position-sensitive detectors as well as on their electronics, which require particular attention to signal processing and noise reduction, are introduced. One chapter is dedicated to the 3He alternatives where scintillators play a critical role. It also covers emerging neutron detection technologies including semiconductors, vacuum-based devices and their associated readouts, which will be required in the future for high rate and high-resolution neutron detectors. The authors explain the logic behind the choice of materials as well as the various constraints that neutron detectors must respect to be useful. Some of these constraints, such as efficiency and gamma-ray sensitivity are common to all neutron counters while others, like timing resolution, dynamic range, and peak counting rate, depend on the applications.
The book guides experts, the nuclear science community, and young scholars through the physical processes and the required electronics in a way that is accessible for those not professionally involved in designing detector’s components and electronic circuits.

Caracteristici

Introduces to logic behind the choice of materials as well as the various constraints that neutron detectors Explains how to design and develop detectors with examples at Oak Ridge National Lab Includes sections about designing detectors' components and electronic circuits