Description
Advances in Neutron Optics
Fundamentals and Applications in Materials Science and Biomedicine
Multidisciplinary and Applied Optics Series
Coordinators: Calvo Maria L., Alvarez-Estrada Ramon F.
Language: EnglishSubjects for Advances in Neutron Optics:
Keywords
Neutron Optical; Neutron Beam; neutron spin optics; Neutron Guides; neutron imaging; Thermal Neutrons; materials science; BNCT; biomedicine; Cold Neutrons; Boron Neutron Capture Therapy; Bohmian Trajectories; Slow Neutrons; Precession Angle; Gaussian Wave Packet; Ti Interlayers; Neutron Spin; Magnetic Layer; Single Slit Diffraction; Neutron Potential; Bohmian Mechanics; Mirror Flipper; Wave Packet; Wave Function; Boron Compounds; Neutron Reflectivities; Spin Turners; Ordinary Differential Equations; Larmor Precession
Publication date: 06-2024
· 15.6x23.4 cm · Paperback
Publication date: 11-2019
· 15.6x23.4 cm · Hardback
Description
/li>Contents
/li>Readership
/li>Biography
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Neutron optics studies the interactions of a beam of slow neutrons with matter. This book updates various advances on neutron optics. There will be a focus on the very active topics of neutron imaging (NI) and neutron spin optics (NSO). The book will also present applications of neutron beams in biomedicine, such as Boron Neutron Capture Therapy (BNCT) and related techniques.
Features:
- Discusses diffraction and interference of slow neutrons, including computational approaches
- Reviews neutron imaging (NI) and neutron spin optics (NSO)
- Treats two major sources of slow neutron beams: (1) fission reactions at nuclear reactors and (2) collisions in particle accelerators (small ones, spallation sources) of charged particle beams with targets of heavy atoms
- Selects subjects on fundamental quantum aspects of slow neutrons and on confined propagation and waveguiding thereof
- Updates slow neutron beams and BNCT
SECTION I: An Introductory Approach to the Foundations of Neurton Optics. 1. Neutron Optics- Fundamentals. 2. Neutron Matter-Wave Diffraction: A Computational Perspective. 3. Neutron Confinement and Waveguiding. SECTION II Neutron Optics-Based Technologies and Applications. 4. Neutron Imaging. 5. Neutron Spin Optics: Concepts, Verification and Prospects. 6. Applications of Neutron Optics to Biomedicine: BNCT.
Maria L. Calvo, Ph. D.is Emeritus professor at the Department of Optics, Faculty of Physical Sciences, Complutense University of Madrid (UCM) (Madrid, Spain). She initiated research at the CNRS (Paris, France) in the Glass Laboratory. She also founded and leads the Interdisciplinary Group for Optical Computing (GICO-UCM) created in 2001 from the former Interdisciplinary Group for Biooptics initiated earlier in 1993. Her theoretical research interests include classical formalism for light scattering, optical waveguide theory and neutron waveguides, photonic devices, and applications to particular media such as holographic gratings. In the experimental physics she has relevant contributions in the design, synthesis and characterization of holographic photomaterials. She has been a visiting professor in other institutions as the University of California at Berkeley and the University of Saint Louis-Missouri. On all the mentioned subjects she has published as author or co-author more than 200 scientific articles. Calvo has taught general and specialized courses in optics for both undergraduate and master’s degree candidates in physical science at UCM. She is involved in education and professional issues. She has authored, coordinated and edited various textbooks in Spanish and in English. She has been President of the International Commission for Optics (ICO) during the term 2008-2011.
Ramon F. Alvarez-Estrada, Ph.D. is Emeritus professor of physics at the Department of Theoretical Physics, Faculty of Physical Sciences, Complutense University of Madrid (UCM), Madrid, Spain, where he has taught undergraduate and graduate courses (since 1975). He has been group leader on research projects (1986-2012), sponsored by successive Ministries of Science in Spain. He has been visiting scientist in Faculté des Sciences d’ Orsay, Université de Paris, and visiting professor at Theory Division, CERN, Geneva, Switzerland and at Theoretical Physics Group and Nuclear S
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