Screen LibraryCompact synchrotron light sources /
This book covers a new niche in circular accelerator design, motivated by the promising industrial prospects of recent micromanufacturing methods - X-ray lithography, synchrotron radiation-based micromachining and microanalysis techniques. It describes the basic concepts and the essential challenges...
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| Main Authors: | |
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| Corporate Authors: | |
| Published: |
World Scientific Pub. Co.,
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| Publisher Address: | Singapore : |
| Publication Dates: | 1996. |
| Literature type: | eBook |
| Language: | English |
| Series: |
Series on synchrotron radiation techniques and applications ;
vol. 3 |
| Subjects: | |
| Online Access: |
http://www.worldscientific.com/worldscibooks/10.1142/2931#t=toc |
| Summary: |
This book covers a new niche in circular accelerator design, motivated by the promising industrial prospects of recent micromanufacturing methods - X-ray lithography, synchrotron radiation-based micromachining and microanalysis techniques. It describes the basic concepts and the essential challenges for the development of compact synchrotron radiation sources from an accelerator designer's point of view and gives an outline of the actual state of the art. The volume is intended as an introduction and as a reference for physicists, engineers and managers involved in this rapidly developing field. |
| Carrier Form: | 1 online resource (xii,216pages) : illustrations. |
| Bibliography: | Includes bibliographical references (pages 199-209) and index. |
| ISBN: | 9789812830555 |
| Index Number: | QC793 |
| CLC: | TL540.1 |
| Contents: | 1. Introduction. 1.1. Evolution of synchrotron light sources -- 2. Potential applications for compact sources. 2.1. X-ray lithography. 2.2. Micromachining: The LIGA-process. 2.3. Total reflection X-ray fluorescence analysis. 2.4. Synchrotron light induced etching. 2.5. Digital subtraction angiography -- 3. Basic design considerations for compact storage ring. 3.1. Basic properties of synchrotron radiation. 3.2. Compactness and cost efficiency. 3.3. Conventional vs superconducting bending magnets. 3.4. Flux vs brightness. 3.5. Beamsize and emittance. 3.6. Methods for large area exposure -- 4. Electron optical concepts for compact rings. 4.1. Conventional lattices with iron magnets. 4.2. Compact ring lattices with superconducting magnets. 4.3. The effect of non-isomagnetic fields -- 5. Injection at low energy. 5.1. Preaccelerators. 5.2. Injection methods. 5.3. Beam lifetime. 5.4. Ion trapping and clearing -- 6. Superconducting bending magnets for compact rings. 6.1. Basic concepts. 6.2. Field calculations. 6.3. Technical considerations. 6.4. Examples. 6.5. Field measurements -- 7. Survey of compact synchrotron light sources. 7.1. Examples of superconducting rings. 7.2. Compact source development in Russia. 7.3. Examples of conventional magnet rings. 7.4. Compact source projects for digital k-edge subtraction angiography. |