| Autore |
Liu Jian
|
| Edizione | [1st ed.] |
| Pubbl/distr/stampa |
Bristol : , : Institute of Physics Publishing, , 2018
|
| Descrizione fisica |
1 online resource (182 pages)
|
| Altri autori (Persone) |
LiuChenguang
WangYuhang
WangChao
TanJiubin
AiMin
ZhongCien
LiMengzhou
ZhangHe
WangTong
|
| Collana |
IOP Series in Advances in Optics, Photonics and Optoelectronics Series
|
| ISBN |
0-7503-4660-4
|
| Formato |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione |
eng
|
| Nota di contenuto |
Intro -- Series preface -- Preface -- Acknowledgement -- Editor biography -- Jian Liu -- List of contributors -- Chapter 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 -- References -- Chapter 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 -- 2.4.1 Apodization factor in terms of z -- 2.4.2 Apodization factor in terms of θ -- 2.5 Focusing properties based on the vector theory -- 2.5.1 Vector theories -- 2.5.2 Three-dimensional expression of the focused electric field -- 2.5.3 Numerical simulation of the focusing field -- 2.6 Comparison of focusing properties among elliptical mirror, parabolic mirror and lens -- 2.7 Summary -- References -- Chapter 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 -- 3.2.1 Analysis of focusing characteristic of elliptical mirror under circularly polarized illumination -- 3.2.2 Analysis of focusing characteristics of the elliptical mirror under radially polarized illumination -- 3.3 Conclusion -- References -- Chapter 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 -- References.
Chapter 5 Scalar approximation for the focusing property of an elliptical mirror -- 5.1 Introduction -- 5.2 Influence factors of focusing property -- 5.2.1 Apodization factor -- 5.2.2 Polarization state -- 5.2.3 Wave aberration -- 5.3 Apodization factor of elliptical mirror -- 5.3.1 Apodization factor of thin lens -- 5.3.2 Apodization factor of the elliptical mirror with rotational symmetry -- 5.4 Analysis on focusing property of elliptical mirror -- 5.4.1 Focusing property of elliptical mirror with circular aperture -- 5.4.2 Focusing property of elliptical mirror with ring-shaped aperture -- 5.5 Comparative analysis on vector diffraction model -- 5.6 Summary -- References -- Chapter 6 Aberration analysis of an elliptical mirror with a high numerical aperture -- 6.1 Introduction -- 6.2 Analysis of geometrical aberration of elliptical mirror -- 6.2.1 Reflected ray formula of elliptical mirror -- 6.2.2 Analysis of the aberration coefficient of a single rotating elliptical mirror -- 6.3 Diffraction integral in the presence of aberration -- 6.3.1 Debye diffraction integral in the presence of aberration -- 6.3.2 Strehl intensity -- 6.4 Zernike circle polynomial expansion of aberration function -- 6.4.1 Transference theorem -- 6.4.2 Zernike circle polynomial -- 6.5 Primary aberration and its influence on the focusing characteristic of the elliptical mirror -- 6.5.1 Primary spherical aberration -- 6.5.2 Primary coma -- 6.5.3 Primary astigmatism -- 6.5.4 Field curvature and distortion -- 6.5.5 Aberration tolerance of elliptical mirror -- 6.6 Conclusion -- References -- Chapter 7 Three-dimensional transfer function -- 7.1 Introduction -- 7.2 Point spread function -- 7.2.1 Coherent transfer function -- 7.2.2 Optical transfer function of elliptical mirror -- 7.3 Three-dimensional transfer function of an elliptical reflective confocal microscopic system.
7.3.1 Coherent transfer function of elliptical reflective confocal microscopic system -- 7.3.2 Two-dimensional transfer function of the elliptical reflective confocal microscopic imaging system -- 7.4 Summary -- References -- Chapter 8 Design and application of an aspherical mirror -- 8.1 Introduction -- 8.2 Basic knowledge -- 8.2.1 Mathematical representation of aspherical surface -- 8.2.2 Taylor series -- 8.3 Design of reflective objective -- 8.3.1 Head design model -- 8.3.2 Aperture diaphragm and field diaphragm -- 8.4 Decoupled model based on the Taylor series expansion -- 8.4.1 Taylor series expansion of the Head polar coordinate model -- 8.4.2 Taylor series expansion of a quadric surface -- 8.4.3 Determination of reflective objective parameters -- 8.4.4 Derivation and truncation error of a high-order aspherical surface parameter -- 8.4.5 Effect of numerical aperture on a decoupled model -- 8.5 Design method based on an obscuration constraint -- 8.5.1 Analysis of the obscuration effect on a reflective objective -- 8.5.2 Obscuration constraint model -- 8.5.3 Design method based on obscuration constraint -- 8.6 Industrial application -- 8.6.1 Structural parameter calculation -- 8.6.2 Obscuration verification -- 8.6.3 Analysis of initial configuration imaging characteristics -- 8.6.4 Whole equipment and specific application -- 8.7 Summary -- References -- Chapter 9 Elliptical mirror applied in TIRF microscopy -- 9.1 Introduction -- 9.2 Background -- 9.3 Basic theory -- 9.4 Experiments -- 9.5 Summary -- References.
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| Record Nr. | UNINA-9910861041103321 |
Info
Elliptical Mirrors : Applications in Microscopy
