Description |
1 online resource |
Series |
Physics research and technology |
|
Engineering tools, techniques and tables |
|
Physics research and technology.
|
|
Engineering tools, techniques and tables.
|
Contents |
SYNCHROTRON: DESIGN, PROPERTIES AND APPLICATIONS; SYNCHROTRON: DESIGN, PROPERTIES AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; Chapter 1: SYNCHROTRON RADIATION AS A TOOL TO STUDY FRAGMENTATION OF CHLORINE CONTAINING MOLECULES; ABSTRACT; INTRODUCTION; The Importance of Studying Molecular Fragmentation; Freon Molecules and the Photochemical Processes in the Stratosphere; EXPERIMENTAL METHODS; The TGM, SGM, and SXS Beamlines at LNLS; Multicoincidence (Pepico, Pepipico) Techniques; 3.3 Kinetic Energy Release; RESULTS |
|
Valence-Shell Ionization, the CH2Cl2 MoleculeConnection with Fast Proton Impact; 3.3 -Kinetic Energy Release; 3.4. Deep Core Ionization, the CF2Cl2 Molecule; 3.4.1 PE2PICO SPECTRA; ACKNOWLEDGMENTS; REFERENCES; Chapter 2: UNDULATOR RADIATION IN MULTIPLEMAGNETIC FIELDS; ABSTRACT; PREFACE; 1. HARMONIC GENERATION BY AN ULTRARELATIVISTICELECTRON IN A TWO-FREQUENCY UNDULATOR; 1.1. Two-Frequency Undulators -- Introduction; 1.2. Intensity of the Spiral Two-Frequency Undulator Radiation; 1.3. Concluding Remarks; 2. PLANAR BI-HARMONIC UNDULATOR AND HARMONICGENERATION |
|
2.1. Radiation of the Planar Bi-Harmonic Undulator2.2. PBHU and High Gain FEL; 2.3. PBHU and Segmented Devices; 2.4. Remarks on the Application of Complex Undulator Schemes; 3. UNDULATOR RADIATION IN A PERIODIC MAGNETICFIELD WITH A CONSTANT COMPONENT; 3.1. Modern Undulator Radiation Sources and Quality of the Radiation; 3.2. Electron Trajectory in an Undulator with an Additional ConstantMagnetic Component; 3.3. Mathematical Forms for the Analytical Solution of UR Problems inMultiple Magnetic Fields; Appendix; 3.4. On-Axis Undulator Emission in the Constant Magnetic Field H0 |
|
3.5. Spectrum Line Broadening In Real Undulators -- Analytical Accountfor the Constant Magnetic Field Component3.6. Concluding Remarks; 4. EMISSION OF A PLANAR UNDULATOR IN AN ADDITIONAL TWOCOMPONENTCONSTANT MAGNETIC FIELD; 4.1. Electron Trajectory and Emission in the Periodic Magnetic Field with aConstant Two-Dimensional Component; 4.2. Intensity of the on-Axis Undulator Radiation and the Off-Axis Effects; 4.3. Influence of the Magnetic Field of the Earth on the Undulators Emission; 4.4. Discussion and Conclusions; REFERENCES |
|
Chapter 3: SYNCHROTRON APPLICATION: MOLECULAR CLUSTERING AND MOLECULAR IMAGING TO STUDY BIOMOLECULAR AND BIOPOLYMER IN HETEROGENEOUS BIOLOGICAL TISSUESINTRODUCTION; APPLICATION 1: TYPICAL SR-IMS SPECTRAL FEATURES IN BIOLOGICAL TISSUES; APPLICATION 2: DETECT MICROSTRUCTURAL-CHEMICAL MAKE-UPAND MICROLOCALIZATION OF BIOPOLYMER AND BIOMELECULARSUSING SYNCHROTRON-BASED SR-IMS; APPLICATION 3: BIOMOLECULAR AND BIOPOLYMER IMAGINGUSING SYNCHROTRON-BASED SR-IMS; APPLICATION 4: DETECT PROTEIN MOLECULAR STRUCTURE PROFILES USING SYNCHROTRON-BASED SR-IMS |
Notes |
Includes bibliographical references and index |
Bibliography |
Includes bibliographical references and index |
Notes |
English |
|
Description based on print version record |
Subject |
Synchrotrons.
|
|
SCIENCE -- Physics -- Nuclear.
|
|
Synchrotrons
|
Form |
Electronic book
|
Author |
Chua, Dao Ming
|
|
Toh, Huang Fu
|
LC no. |
2020677057 |
ISBN |
9781620812327 |
|
1620812320 |
|