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Acoustic Microscopy Second Edition

Briggs, Andrew Kolosov Oleg
Innbundet / 2009 / Engelsk

Produktdetaljer

ISBN
9780199232734
Publisert
2009
Utgave
2. utgave
Utgiver
Vendor
Oxford University Press
Vekt
784 gr
Høyde
241 mm
Bredde
162 mm
Dybde
23 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
380

Forfatter
Briggs, Andrew
Kolosov Oleg

Biographical note

Professor Andrew Briggs Professor of Nanomaterials Department of Materials University of Oxford Dr Oleg Kolosov Department of Physics University of Lancaster

Acoustic Microscopy Second Edition

Briggs, Andrew Kolosov Oleg
Innbundet / 2009 / Engelsk
Briggs, Andrew Kolosov Oleg
Innbundet / 2009 / Engelsk
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Acoustic microscopy enables the elastic properties of materials to be imaged and measured with the resolution of a good microscope. By using frequencies in the microwave regime, it is possible to make the acoustic wavelength comparable with the wavelength of light, and hence to achieve a resolution comparable with an optical microscope. Solids can support both longitudinal and transverse acoustic waves. At surfaces a unique combination of the two known as Raleigh waves can propagate, and in many circumstances these dominate the contrast in acoustic microscopy. Following the invention of scanning probe microscopes, it is now possible to use an atomic force microscope to detect the acoustic vibration of a surface with resolution in the nanometre range, thus beating the diffraction limit by operating in the extreme near-field. This second edition of Acoustic Microscopy has a major new chapter on the technique and applications of acoustically excited probe microscopy.
Les mer
For many years Acoustic Microscopy has been the definitive book on the subject. A key development since it was first published has been the development of ultrasonic force microscopy. The 2nd edition has a major new chapter on this technique and its applications.
Les mer
1. Son et Lumiere ; 2. Focusing and Scanning ; 3. Resolution ; 4. Lens Design and Selection ; 5. Electronic Circuits for Quantitative Microscopy ; 6. A Little Elementary Acoustics ; 7. Contrast Theory ; 8. Experimental Elastic Microanalysis ; 9. Biological Tissue ; 10. Layered Structures ; 11. Anisotropy ; 12. Surface Cracks and Boundaries ; 13. Acoustically Excited Probe Microscopy ; 14. So what happens when you defocus? ; References ; Index
Les mer
Review from previous edition Acoustic microscopy had already helped to solve many problems in materials science. A textbook giving a full treatment of acoustic microscopy was therefore bound to be very welcome. Here it is!
Les mer
`Review from previous edition Acoustic microscopy had already helped to solve many problems in materials science. A textbook giving a full treatment of acoustic microscopy was therefore bound to be very welcome. Here it is!' Ultrasonics `Such an elegant technique, so widely applicable, is bound to attract increasing numbers of enthusiasts. They can do no better than turn to this excellent book and learn not only the tools of their specialism but also a great deal of physics admirably expounded and faultlessly illustrated. [...] This is a great book.' Contemporary Physics `A masterly volume that will not easily be surpassed.' Proceedings RMS
Les mer
Gives a connected account of principles and practice, including the underlying theory and practical implementation of the methodology Acoustic microscopy allows to image the elastic properties of materials Acoustic microscopy gives strong contrast from defects including subsurface defects invisible otherwise Illustrated with a wealth of examples Second edition has a major new chapter on acoustically excited probe microscopy, which enables the elastic structure to be imaged with nanoscale resolution
Les mer
Professor Andrew Briggs Professor of Nanomaterials Department of Materials University of Oxford Dr Oleg Kolosov Department of Physics University of Lancaster
Gives a connected account of principles and practice, including the underlying theory and practical implementation of the methodology Acoustic microscopy allows to image the elastic properties of materials Acoustic microscopy gives strong contrast from defects including subsurface defects invisible otherwise Illustrated with a wealth of examples Second edition has a major new chapter on acoustically excited probe microscopy, which enables the elastic structure to be imaged with nanoscale resolution
Les mer

Relaterte produkter

Acoustic microscopy enables the elastic properties of materials to be imaged and measured with the resolution of a good microscope. By using frequencies in the microwave regime, it is possible to make the acoustic wavelength comparable with the wavelength of light, and hence to achieve a resolution comparable with an optical microscope. Solids can support both longitudinal and transverse acoustic waves. At surfaces a unique combination of the two known as Raleigh waves can propagate, and in many circumstances these dominate the contrast in acoustic microscopy. Following the invention of scanning probe microscopes, it is now possible to use an atomic force microscope to detect the acoustic vibration of a surface with resolution in the nanometre range, thus beating the diffraction limit by operating in the extreme near-field. This second edition of Acoustic Microscopy has a major new chapter on the technique and applications of acoustically excited probe microscopy.
Les mer
For many years Acoustic Microscopy has been the definitive book on the subject. A key development since it was first published has been the development of ultrasonic force microscopy. The 2nd edition has a major new chapter on this technique and its applications.
Les mer
1. Son et Lumiere ; 2. Focusing and Scanning ; 3. Resolution ; 4. Lens Design and Selection ; 5. Electronic Circuits for Quantitative Microscopy ; 6. A Little Elementary Acoustics ; 7. Contrast Theory ; 8. Experimental Elastic Microanalysis ; 9. Biological Tissue ; 10. Layered Structures ; 11. Anisotropy ; 12. Surface Cracks and Boundaries ; 13. Acoustically Excited Probe Microscopy ; 14. So what happens when you defocus? ; References ; Index
Les mer
Review from previous edition Acoustic microscopy had already helped to solve many problems in materials science. A textbook giving a full treatment of acoustic microscopy was therefore bound to be very welcome. Here it is!
Les mer
`Review from previous edition Acoustic microscopy had already helped to solve many problems in materials science. A textbook giving a full treatment of acoustic microscopy was therefore bound to be very welcome. Here it is!' Ultrasonics `Such an elegant technique, so widely applicable, is bound to attract increasing numbers of enthusiasts. They can do no better than turn to this excellent book and learn not only the tools of their specialism but also a great deal of physics admirably expounded and faultlessly illustrated. [...] This is a great book.' Contemporary Physics `A masterly volume that will not easily be surpassed.' Proceedings RMS
Les mer
Gives a connected account of principles and practice, including the underlying theory and practical implementation of the methodology Acoustic microscopy allows to image the elastic properties of materials Acoustic microscopy gives strong contrast from defects including subsurface defects invisible otherwise Illustrated with a wealth of examples Second edition has a major new chapter on acoustically excited probe microscopy, which enables the elastic structure to be imaged with nanoscale resolution
Les mer
Professor Andrew Briggs Professor of Nanomaterials Department of Materials University of Oxford Dr Oleg Kolosov Department of Physics University of Lancaster
Gives a connected account of principles and practice, including the underlying theory and practical implementation of the methodology Acoustic microscopy allows to image the elastic properties of materials Acoustic microscopy gives strong contrast from defects including subsurface defects invisible otherwise Illustrated with a wealth of examples Second edition has a major new chapter on acoustically excited probe microscopy, which enables the elastic structure to be imaged with nanoscale resolution
Les mer

Produktdetaljer

ISBN
9780199232734
Publisert
2009
Utgave
2. utgave
Utgiver
Vendor
Oxford University Press
Vekt
784 gr
Høyde
241 mm
Bredde
162 mm
Dybde
23 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
380

Forfatter
Briggs, Andrew
Kolosov Oleg

Biographical note

Professor Andrew Briggs Professor of Nanomaterials Department of Materials University of Oxford Dr Oleg Kolosov Department of Physics University of Lancaster

Relaterte produkter