| Description |
1 online resource : illustrations (some color) |
| Series |
IOP expanding physics, 2053-2563 |
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IOP series in advances in optics, photonics and optoelectronics |
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IOP expanding physics.
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IOP series in advances in optics, photonics and optoelectronics.
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| Contents |
1. Research and application of reflective microscopy -- 1.1. Introduction -- 1.2. Current situation of research on reflective microscopy -- 1.3. The current situation of application of reflective microscopy -- 1.4. Summary |
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2. Apodization factor and linearly polarized light focusing properties of elliptical mirror -- 2.1. Introduction -- 2.2. Elliptical mirror model -- 2.3. Apodization factor -- 2.4. Apodization factor under different parametric variables -- 2.5. Focusing properties based on the vector theory -- 2.6. Comparison of focusing properties among elliptical mirror, parabolic mirror and lens -- 2.7. Summary |
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3. Focusing characteristic of polarized light -- 3.1. Basic model of an elliptical mirror -- 3.2. Vector focus model of elliptical mirror with extra high aperture angle -- 3.3. Conclusion |
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4. Imaging analysis of dipole vector in an elliptical mirror -- 4.1. Introduction -- 4.2. Imaging model of dipole vector in elliptical mirror -- 4.3. Imaging characteristics of the electric dipole in the elliptical mirror -- 4.4. Imaging characteristics of the electric dipole in a dual-lens system -- 4.5. Comparison on imaging characteristics of dipole in elliptical mirror, parabolic mirror and lens -- 4.6. Summary |
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5. Scalar approximation for the focusing property of an elliptical mirror -- 5.1. Introduction -- 5.2. Influence factors of focusing property -- 5.3. Apodization factor of elliptical mirror -- 5.4. Analysis on focusing property of elliptical mirror -- 5.5. Comparative analysis on vector diffraction model -- 5.6. Summary |
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6. Aberration analysis of an elliptical mirror with a high numerical aperture -- 6.1. Introduction -- 6.2. Analysis of geometrical aberration of elliptical mirror -- 6.3. Diffraction integral in the presence of aberration -- 6.4. Zernike circle polynomial expansion of aberration function -- 6.5. Primary aberration and its influence on the focusing characteristic of the elliptical mirror -- 6.6. Conclusion |
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7. Three-dimensional transfer function -- 7.1. Introduction -- 7.2. Point spread function -- 7.3. Three-dimensional transfer function of an elliptical reflective confocal microscopic system -- 7.4. Summary |
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8. Design and application of an aspherical mirror -- 8.1. Introduction -- 8.2. Basic knowledge -- 8.3. Design of reflective objective -- 8.4. Decoupled model based on the Taylor series expansion -- 8.5. Design method based on an obscuration constraint -- 8.6. Industrial application -- 8.7. Summary |
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9. Elliptical mirror applied in TIRF microscopy -- 9.1. Introduction -- 9.2. Background -- 9.3. Basic theory -- 9.4. Experiments -- 9.5. Summary |
| Summary |
Composed by a specialist in the field, Professor Jian Liu and with the members of his team contributing to the work, Elliptical Mirrors discusses the importance of the elliptical mirror, the third solution in far field optical imaging after parabolic reflectors and lenses for which apodization factors were established in 1921 and 1959 respectively. Elliptical Mirrors are a new and novel technique within the world of optics and can be applied to industrial imaging, bio-imaging, x-ray photography and much more. Elliptical mirrors are inevitably going to retain a significant role in trend of microscopic development. This detailed and highly insightful book will be an important insight into a growing subject area that will benefit PhD students, optical physicists, metrologists and researchers who have an interest in the ever-growing science of optics. The book discusses the original concept of elliptical mirrors and gives a fundamental and comprehensive theory behind them and their functions |
| Notes |
"Version: 20181001"--Title page verso |
| Bibliography |
Includes bibliographical references |
| Notes |
Title from PDF title page (viewed on November 8, 2018) |
| Audience |
Upper level optical engineers, physicists, students, researchers, professionals. Physicists in optics and optical system designers |
| Notes |
Jian Liu is Professor and vice dean at the Harbin Institute of Technology, China and is an Honorary Professor at the University of Nottingham, UK. His academic interests lie in the theories and implementations of optical microscopes, and he has a particular interest in the development of optical microscopes, applied optics and optical metrology. This book has been written using the expert knowledge and methods developed by Professor Liu, with contributions from a number of scientists and optical specialists with a vested interest in this developing subject within optical science |
| Subject |
Microscopy -- Methodology
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Mirrors.
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Mathematical physics.
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SCIENCE -- Physics -- Optics & Light.
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Mirrors
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| Form |
Electronic book
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| Author |
Liu, Jian (Professor of electrical engineering and automation), editor.
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Institute of Physics (Great Britain), publisher.
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| ISBN |
9780750316293 |
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0750316292 |
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9780750316286 |
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0750316284 |
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0750316276 |
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9780750316279 |
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