Optical imaging and microscopy: techniques and advanced systems
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
|
| Ausgabe: | 2., rev. ed. |
| Schriftenreihe: | Springer series in optical sciences
87 |
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XIX, 497 S. Ill., graph. Darst. |
| ISBN: | 9783540695639 354069563X |
Internformat
MARC
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| 245 | 1 | 0 | |a Optical imaging and microscopy |b techniques and advanced systems |c Peter Török ... [eds.] |
| 250 | |a 2., rev. ed. | ||
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2007 | |
| 300 | |a XIX, 497 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Springer series in optical sciences |v 87 | |
| 500 | |a Literaturangaben | ||
| 650 | 4 | |a Imaging systems | |
| 650 | 4 | |a Microscopy | |
| 650 | 4 | |a Optoelectronic devices | |
| 650 | 0 | 7 | |a Optisches System |0 (DE-588)4126186-0 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1805090493253550080 |
|---|---|
| adam_text |
Contents
Part I High Aperture Optical Systems and Super-Resolution
1
Exploring Living Cells and Molecular Dynamics
with Polarized Light Microscopy
S. Inoué
. 3
1.1
Introduction
. 3
1.2
Equipment Requirement
. 4
1.3
Biological Examples
. 8
1.4
Video-Enhanced Microscopy
. 12
1.5
The LC Pol-Scope
. 13
1.6
The Centrifuge Polarizing Microscope
. 14
1.7
Polarized Fluorescence of Green Fluorescent Protein
. 17
1.8
Concluding Remarks
. 18
References
. 19
2
Characterizing High Numerical Aperture
Microscope Objective Lenses
R. Juskaitis
. 21
2.1
Introduction
. 21
2.1.1
Disclaimer
. 21
2.1.2
Objective Lens Basics
. 22
2.2
Point Spread Function
. 23
2.2.1
Fibre-Optic Interferometer
. 24
2.2.2 PSF
Measurements
. 26
2.3
Chromatic Aberrations
. 28
2.3.1
Apparatus
. 28
2.3.2
Axial Shift
. 30
2.4
Pupil Function
. 31
2.4.1
Phase-Shifting
Interferometry
. 32
2.4.2
Zernike Polynomial Fit
. 33
2.4.3
Restoration of a
3-D
Point Spread Function
. 36
2.4.4
Empty Aperture
. 37
2.5
Esoterica
. 39
2.5.1
Temperature Variations
. 39
2.5.2
Apodization
. 40
X
Contents
2.5.3
Polarization Effects
. 42
2.6
Conclusion
. 42
References
. 43
3
Diffractive Optical Lenses in Imaging Systems
-
High-Resolution Microscopy and Diffractive Solid Immersion Systems
R.
Brunnen HJ. Dobschal. 45
3.1
Introduction
. 45
3.2
Basics
. 46
3.2.1
Fundamentals
. 46
3.2.2
Dispersion
-
Achromatization
—
Apochromatization
. 47
3.2.3
Diffraction Efficiency
. 49
3.3
Applications
. 52
3.3.1
Hybrid Lens System
for High Resolution DUV Mask Inspection
. 53
3.4
Design and Realization
. 53
3.5
Application Examples
. 56
3.6
Resolution Enhancement with Solid Immersion Lens
(SIL)
. 60
3.6.1
DUV Microscopy with NIR
Autofocus:
Wavelength Selective DOE Combination
. 61
3.6.2
Diffraction Based Solid Immersion Lens
. 63
3.7
dSIL: Concept and Phase Effects
. 65
3.8
dSIL: Experimental
. 66
3.9
Final Remarks
. 68
References
. 68
4
Diffractive Read-Out of Optical Discs
J. Braat, P. Dirksen, A.
Janssen
. 71
4.1
Introduction
. 71
4.2
Historic Overview of Video and Audio Recording
on Optical Media
. 71
4.2.1
The Early Optical Video System
. 73
4.2.2
The Origin of the CD-System
. 74
4.2.3
The Road Towards the DVD-System
. 75
4.3
Overview of the Optical Principles of the CD- and the DVD-System
_ 76
4.3.1
Optical Read-Out of the High-Frequency Information Signal
. 76
4.3.2
Optical Error Signals for Focusing and Radial Tracking
of the Information
. 81
4.3.3
Examples of LightPaths
. 84
4.4
Radial Tracking for DVD
. 86
4.4.1
A Diffraction Model for the DPD and DTD Tracking Signal
----- 86
4.4.2
The Influence of Detector Misalignment on the Tracking Signal
. 88
4.4.3
The DTD Tracking Signal for the DVD-System
. 90
4.4.4
The DTD2 and the DTD4 Signal in the Presence of
Defocus
----- 92
4.5
Compatibility Issues for the DVD-and the CD-System
. 93
Contents
XI
4.5.1
The Substrate-Induced Spherical Aberration
. 95
4.5.2
The Effective Optical Transfer Function
. 99
4.5.3
The Two-Wavelength Light Path
.100
4.6
Efficient Calculation Scheme for the Detector Signal
.100
4.6.1
Optical Configuration and the FFT-Approach
.101
4.6.2
The Analytic Approach
.102
4.6.3
The Harmonic Components of the Detector Signal
.105
4.6.4
The Representation of the Function Fm^{x,y)
.107
4.6.5
Orthogonality in Pupil and Image Plane
.109
4.7
Conclusion
.110
References
.110
5
Superresolution
in Scanning Optical Systems
E. Pike, D.
Chana,
P. Neocleous, S.-H. Jiang
.113
5.1
Introduction
.113
5.2
Direct Methods
.114
5.2.1
Pendry Lens
.114
5.2.2
Kino's Solid Immersion Lens
.117
5.2.3
Toraldo
di Francia's
Apodising Masks
.117
5.3
Inverse Methods and Image-Plane Masks
.120
5.4
Optical Systems for Scanning Imaging
.122
5.4.1
Analytical Results
.124
5.4.2
Numerical Results
.127
5.5
The Comparison of Non-linear Optical Scanning Systems
.130
5.6
High-Aperture Image-Plane Masks
.133
References
.135
6
Depth of Field Control in Incoherent Hybrid Imaging Systems
S. Sherif, T. Cathey
.137
6.1
Introduction
.137
6.2
Hybrid Imaging Systems
.137
6.2.1
Digital Post-Processing
.138
6.2.2
New Metric for Defocused Image Blurring
.138
6.3
ExtendedDepth of Field
.139
6.3.1
Design of a Rectangular EDF Phase Plate
.140
6.3.2
Performance of a Logarithmic Phase Plate
.143
6.3.3
Performance Comparison of Different EDF Phase Plates
.151
6.4
ReducedDepth of Field
.154
6.4.1
Design of a Rectangular RDF Phase Plate
.154
6.4.2
Performance of a Rectangular RDF Phase Grating
.156
6.5
Effect of Optical Detector on Depth of Field Control
.159
6.5.1
Effect of Additive White Noise at the Optical Detector
.159
6.5.2
Charge-Coupled Device-Limited
PSF.161
6.5.3
CCD
Effect on Depth of Field Extension
.163
6.5.4
CCD
Effect on Depth of Field Reduction
.164
XII Contents
6.6
Conclusions
.165
References
.167
7
Wavefront
Coding Fluorescence Microscopy
Using High Aperture Lenses
M.R. Arnison, C.J. Cogswell, C.J.R. Sheppard, P.
Török
.169
7.1
Extended Depth of Field Microscopy
.169
7.1.1
Methods for Extending the Depth of Field
.170
7.2
High Aperture Fluorescence Microscopy Imaging
.172
7.2.1
Experimental Method
.173
7.2.2 PSF andOTFResults.175
7.2.3
Biological Imaging Results
.177
7.3
Wavefront
Coding Theory
.178
7.3.1
Derivation of the Cubic Phase Function
.179
7.3.2
Paraxial Model
.179
7.3.3
High Aperture
PSF
Model
.180
7.3.4
High Aperture OTF Model
.182
7.3.5
Defocused OTF and
PSF.183
7.3.6
Simulation Results
.184
7.3.7
Discussion
.188
7.4
Conclusion
.190
References
.191
Part
Π
Nonlinear Techniques in Optical Imaging
8
Total Internal Reflection Fluorescence Microscopy
D. Axelrod
.195
8.1
Features and Applications
.195
8.2
Theoretical Principles
.198
8.2.1
Infinite Plane Waves
.198
8.2.2
Finite Width Incident Beams
.203
8.2.3
Intermediate Layers
.203
8.2.4
Combination of
TIR
with Other Fluorescence Techniques
.205
8.2.5
Surface Near Field Emission Imaging
.207
8.2.6
Measurement of Distances from a Surface
.209
8.2.7
Variable Incidence Angle
TIR:
Concentration Profiles
.211
8.2.8
Image Deconvolution
.212
8.3
Optical Configurations
.212
8.3.1
High Aperture Objective-Based
TIR
.212
8.3.2
TIRF with a Prism
.217
8.3.3
TIR
from Multiple Directions
.223
8.3.4
Rapid Chopping between
TIR
and
EPI
.224
8.3.5
Surface Near-Field Imaging
.225
8.4
General Experimental Considerations
.226
Contents XIII
8.5 TIRF
vs. other Optical Section Microscopies
.231
References
.233
9
Nonlinear Optical Microscopy
F.
Lagugné
Labarthet, Y.R. Shen
.237
9.1
Introduction
.237
9.2
Second Harmonic Nonlinear Microscopy
.239
9.2.1
Basic Principle of SHG
.239
9.2.2
Coherence Effects in SH Microscopy
.242
9.2.3
Scanning Near-Field
Nonlinear Second Harmonic Generation
.243
9.3
Sum Frequency Generation Microscopy
.246
9.3.1
Basic Principle of Sum Frequency Generation
.246
9.3.2
Far-Field SFG Microscopy
.247
9.3.3
Near-Field SFG Imaging
.250
9.4
Third Harmonic Generation Microscopy
.251
9.5
Coherent Anti-Stokes Raman Scattering Microscopy
.252
9.6
Multiphoton Excited Fluorescence Microscopy
.256
9.6.1
Two-Photon Excited Fluorescence (TPEF) Microscopy
.257
9.6.2
TPEF Far-Field Microscopy Using Multipoint Excitation
.260
9.6.3 4-й
Confocal TPEF Microscopy
.261
9.6.4
Simultaneous SHG/TPEF Microscopy
.262
9.6.5
Three-Photon-Excited Fluorescence Microscopy
.263
9.6.6
Stimulated-Emission-Depletion (STED)
Fluorescence Microscopy
.263
9.7
Conclusion
.264
References
.265
10
Parametric Nonlinear Optical Techniques in Microscopy
M.
Müller, G.J.
Brakenhoff
.269
10.1
Introduction
.269
10.2
Nonlinear Optics
-
Parametric Processes
.270
10.2.1
Introduction
.270
10.2.2
Optical Sectioning Capability
.272
10.2.3
Second Harmonic Generation (SHG)
.272
10.2.4
Third Harmonic Generation (THG)
.273
10.2.5
Coherent Anti-Stokes Raman Scattering (CARS)
.274
10.3
Third Harmonic Generation (THG) Microscopy
.275
10.3.
Î
General Characteristics
.275
10.3.2
Selected Applications
.277
10.3.3
Summary
.280
10.4
Coherent Anti-Stokes Raman Scattering (CARS) Microscopy
.281
10.4.1
General Characteristics
.281
10.4.2
Multiplex CARS
.283
10.4.3
Summary
.286
XIV Contents
10.5
Conclusion
.286
References
.288
11
Second Harmonie
Generation Microscopy
Versus
Third
Harmonie
Generation Microscopy in Biological Tissues
C.-K. Sun
.291
11.1
Introduction
.291
11.2
SHG Microscopy
.292
11.3
Bio-Photonic Crystal Effect in Biological SHG Microscopy
.293
11.4
THG Microscopy
.300
11.5
Conclusion
.302
References
.303
Part
Ш
Miscellaneous Methods in Optical Imaging
12
Adaptive Optics
С
Dainty
.307
12.1
Introduction
.307
12.2
Historical Background
.308
12.3
Strehi
Ratio and
Wavefront
Variance
.311
12.4
Wavefront
Sensing
.312
12.5
Deformable Mirrors and Other Corrective Devices
.315
12.6
The Control System
.317
12.7
Low Cost
АО
Systems
.320
12.8
Current Research Issues in Astronomical Adaptive Optics
.322
12.9
Adaptive Optics and the Eye
.324
References
.326
13
Low-Coherence Interference Microscopy
C.J.R. Sheppard, M.Roy
.329
13.1
Introduction
.329
13.2
Geometry of the Interference Microscope
.332
13.3
Principle of Low-Coherence
Interferometry
.333
13.4
Analysis of White-Light Interference Fringes
.335
13.4.1
Digital Filtering Algorithms
.336
13.4.2
Phase Shift Algorithms
.336
13.5
Spatial Coherence Effects
.338
13.6
Experimental Setup
.339
13.6.1
The Illumination System
.339
13.6.2
The Interferometer
.339
13.7
Experimental Results
.341
13.8
Discussion and Conclusion
.342
References
.344
Contents
XV
14
Surface
Plasmen
and Surface Wave Microscopy
M.G. Somekh
.347
14.1
Introduction
.347
14.2
Overview of SP and Surface Wave Properties
.348
14.3
Surface Wave Generation and Contrast Mechanisms
in Surface Wave Microscopy
.354
14.4
Surface Plasmon Microscopy
-
Kretschmann Prism Based Methods
_361
14.5
Objective Lenses for Surface Plasmon Microscopy
.363
14.6
Objective Lens Based Surface Plasmon Microscopy:
Non
Interferometrie
Methods
.368
14.6.1
Scanning Methods
.368
14.6.2
Wide Field SP and Surface Wave Microscopy
.369
14.6.3
Scanning Fluorescence Surface Wave Microscopy
.374
14.7
Objective Lens
Interferometrie
Techniques
.383
14.7.1
Scanning
Interferometry
.383
14.7.2
Widefield
Interferometrie
Techniques
.389
14.8
Discussion and Conclusions
.392
14.8.1
Relationship of SP Methods with TIR(F)M Methods
.393
14.8.2
Localized SPs
.394
14.8.3
'Exotic' Techniques
.394
References
.396
15
Optical Coherence Tomography
A.M.
Zysk,
S.A.
Boppart
.401
15.1
Introduction
.401
15.2
Principles of Operation
.402
15.3
Technological Developments
.406
15.3.1
Optical Sources for High-Resolution Imaging
.406
15.3.2
Spectroscopic
OCT
.408
15.3.3
Real-Time
Volumetric
OCT
Imaging
.410
15.3.4
Optical Coherence Microscopy
.411
15.3.5
Beam Delivery Systems
.414
15.3.6
Contrast Agents and Molecular Imaging
.415
15.4
Applications
.418
15.4.1
Developmental Biology
.418
15.4.2
Cellular Imaging
.420
15.4.3
Medical and Surgical Microscopy
-
Identifying Tumors
and Tumor Margins
.423
15.4.4
Image-Guided Surgery
.426
15.4.5
Materials Investigations
.428
15.5
Conclusions
.430
References
.432
XVI Contents
16
Near-Field Optical Microscopy and Application to Nanophotonics
M. Ohtsu
.437
16.1
Introduction
.437
16.2
Nano-Scale
Fabrication
.438
16.2.1
Depositing Zinc and Aluminum
.438
16.2.2
Depositing Zinc Oxide
.443
16.3
Nanophotonic Devices and Integration
.444
16.3.1
Switching by Nonlinear Absorption in a Single Quantum Dot
. 445
16.3.2
Switching by Optical Near-Field Interaction
Between Quantum Dots
.446
16.4
Optical Storage and Readout by Optical Near-Field
.449
16.5
Conclusion
.452
References
.453
17
Optical Trapping of Small Particles
A.
Rohrbach,
E.H.K.
Stelzer.455
17.1
Introduction
.455
17.2
Optical Trapping
.456
17.2.1
Principles
.456
17.2.2
Optical Tweezers
.458
17.2.3
Photonic Force Microscopy
.460
17.2.4 3D
Tracking with Coherent Light
.463
17.2.5
Atom Traps
.463
17.3
Theory
.464
17.3.1
Arbitrary Focused Fields
.464
17.3.2
Scattering by Focused Fields
.466
17.3.3
Interferometrie
Position Detection
.466
17.3.4
Trapping forces
.469
17.3.5
Thermal Noise
.471
17.4
Experimental Setup and Techniques
.472
17.4.1
Mechanics and optics
.472
17.4.2
Lasers and Probes
.473
17.4.3
Electronics
.474
17.4.4
Calibration of Trap and Position Detector
.474
17.4.5
Time-Multiplexed and Holographic Optical Traps
.478
17.5
Applications in Brownian Systems
.479
17.5.1
Particle Binding and Uptake by a Living Cell
.480
17.5.2
Imaging Nano-Mechanical Properties of Single Molecules
.481
17.6
Summary and Outlook
.483
References
.483
Index
.491 |
| adam_txt |
Contents
Part I High Aperture Optical Systems and Super-Resolution
1
Exploring Living Cells and Molecular Dynamics
with Polarized Light Microscopy
S. Inoué
. 3
1.1
Introduction
. 3
1.2
Equipment Requirement
. 4
1.3
Biological Examples
. 8
1.4
Video-Enhanced Microscopy
. 12
1.5
The LC Pol-Scope
. 13
1.6
The Centrifuge Polarizing Microscope
. 14
1.7
Polarized Fluorescence of Green Fluorescent Protein
. 17
1.8
Concluding Remarks
. 18
References
. 19
2
Characterizing High Numerical Aperture
Microscope Objective Lenses
R. Juskaitis
. 21
2.1
Introduction
. 21
2.1.1
Disclaimer
. 21
2.1.2
Objective Lens Basics
. 22
2.2
Point Spread Function
. 23
2.2.1
Fibre-Optic Interferometer
. 24
2.2.2 PSF
Measurements
. 26
2.3
Chromatic Aberrations
. 28
2.3.1
Apparatus
. 28
2.3.2
Axial Shift
. 30
2.4
Pupil Function
. 31
2.4.1
Phase-Shifting
Interferometry
. 32
2.4.2
Zernike Polynomial Fit
. 33
2.4.3
Restoration of a
3-D
Point Spread Function
. 36
2.4.4
Empty Aperture
. 37
2.5
Esoterica
. 39
2.5.1
Temperature Variations
. 39
2.5.2
Apodization
. 40
X
Contents
2.5.3
Polarization Effects
. 42
2.6
Conclusion
. 42
References
. 43
3
Diffractive Optical Lenses in Imaging Systems
-
High-Resolution Microscopy and Diffractive Solid Immersion Systems
R.
Brunnen HJ. Dobschal. 45
3.1
Introduction
. 45
3.2
Basics
. 46
3.2.1
Fundamentals
. 46
3.2.2
Dispersion
-
Achromatization
—
Apochromatization
. 47
3.2.3
Diffraction Efficiency
. 49
3.3
Applications
. 52
3.3.1
Hybrid Lens System
for High Resolution DUV Mask Inspection
. 53
3.4
Design and Realization
. 53
3.5
Application Examples
. 56
3.6
Resolution Enhancement with Solid Immersion Lens
(SIL)
. 60
3.6.1
DUV Microscopy with NIR
Autofocus:
Wavelength Selective DOE Combination
. 61
3.6.2
Diffraction Based Solid Immersion Lens
. 63
3.7
dSIL: Concept and Phase Effects
. 65
3.8
dSIL: Experimental
. 66
3.9
Final Remarks
. 68
References
. 68
4
Diffractive Read-Out of Optical Discs
J. Braat, P. Dirksen, A.
Janssen
. 71
4.1
Introduction
. 71
4.2
Historic Overview of Video and Audio Recording
on Optical Media
. 71
4.2.1
The Early Optical Video System
. 73
4.2.2
The Origin of the CD-System
. 74
4.2.3
The Road Towards the DVD-System
. 75
4.3
Overview of the Optical Principles of the CD- and the DVD-System
_ 76
4.3.1
Optical Read-Out of the High-Frequency Information Signal
. 76
4.3.2
Optical Error Signals for Focusing and Radial Tracking
of the Information
. 81
4.3.3
Examples of LightPaths
. 84
4.4
Radial Tracking for DVD
. 86
4.4.1
A Diffraction Model for the DPD and DTD Tracking Signal
----- 86
4.4.2
The Influence of Detector Misalignment on the Tracking Signal
. 88
4.4.3
The DTD Tracking Signal for the DVD-System
. 90
4.4.4
The DTD2 and the DTD4 Signal in the Presence of
Defocus
----- 92
4.5
Compatibility Issues for the DVD-and the CD-System
. 93
Contents
XI
4.5.1
The Substrate-Induced Spherical Aberration
. 95
4.5.2
The Effective Optical Transfer Function
. 99
4.5.3
The Two-Wavelength Light Path
.100
4.6
Efficient Calculation Scheme for the Detector Signal
.100
4.6.1
Optical Configuration and the FFT-Approach
.101
4.6.2
The Analytic Approach
.102
4.6.3
The Harmonic Components of the Detector Signal
.105
4.6.4
The Representation of the Function Fm^{x,y)
.107
4.6.5
Orthogonality in Pupil and Image Plane
.109
4.7
Conclusion
.110
References
.110
5
Superresolution
in Scanning Optical Systems
E. Pike, D.
Chana,
P. Neocleous, S.-H. Jiang
.113
5.1
Introduction
.113
5.2
Direct Methods
.114
5.2.1
Pendry Lens
.114
5.2.2
Kino's Solid Immersion Lens
.117
5.2.3
Toraldo
di Francia's
Apodising Masks
.117
5.3
Inverse Methods and Image-Plane Masks
.120
5.4
Optical Systems for Scanning Imaging
.122
5.4.1
Analytical Results
.124
5.4.2
Numerical Results
.127
5.5
The Comparison of Non-linear Optical Scanning Systems
.130
5.6
High-Aperture Image-Plane Masks
.133
References
.135
6
Depth of Field Control in Incoherent Hybrid Imaging Systems
S. Sherif, T. Cathey
.137
6.1
Introduction
.137
6.2
Hybrid Imaging Systems
.137
6.2.1
Digital Post-Processing
.138
6.2.2
New Metric for Defocused Image Blurring
.138
6.3
ExtendedDepth of Field
.139
6.3.1
Design of a Rectangular EDF Phase Plate
.140
6.3.2
Performance of a Logarithmic Phase Plate
.143
6.3.3
Performance Comparison of Different EDF Phase Plates
.151
6.4
ReducedDepth of Field
.154
6.4.1
Design of a Rectangular RDF Phase Plate
.154
6.4.2
Performance of a Rectangular RDF Phase Grating
.156
6.5
Effect of Optical Detector on Depth of Field Control
.159
6.5.1
Effect of Additive White Noise at the Optical Detector
.159
6.5.2
Charge-Coupled Device-Limited
PSF.161
6.5.3
CCD
Effect on Depth of Field Extension
.163
6.5.4
CCD
Effect on Depth of Field Reduction
.164
XII Contents
6.6
Conclusions
.165
References
.167
7
Wavefront
Coding Fluorescence Microscopy
Using High Aperture Lenses
M.R. Arnison, C.J. Cogswell, C.J.R. Sheppard, P.
Török
.169
7.1
Extended Depth of Field Microscopy
.169
7.1.1
Methods for Extending the Depth of Field
.170
7.2
High Aperture Fluorescence Microscopy Imaging
.172
7.2.1
Experimental Method
.173
7.2.2 PSF andOTFResults.175
7.2.3
Biological Imaging Results
.177
7.3
Wavefront
Coding Theory
.178
7.3.1
Derivation of the Cubic Phase Function
.179
7.3.2
Paraxial Model
.179
7.3.3
High Aperture
PSF
Model
.180
7.3.4
High Aperture OTF Model
.182
7.3.5
Defocused OTF and
PSF.183
7.3.6
Simulation Results
.184
7.3.7
Discussion
.188
7.4
Conclusion
.190
References
.191
Part
Π
Nonlinear Techniques in Optical Imaging
8
Total Internal Reflection Fluorescence Microscopy
D. Axelrod
.195
8.1
Features and Applications
.195
8.2
Theoretical Principles
.198
8.2.1
Infinite Plane Waves
.198
8.2.2
Finite Width Incident Beams
.203
8.2.3
Intermediate Layers
.203
8.2.4
Combination of
TIR
with Other Fluorescence Techniques
.205
8.2.5
Surface Near Field Emission Imaging
.207
8.2.6
Measurement of Distances from a Surface
.209
8.2.7
Variable Incidence Angle
TIR:
Concentration Profiles
.211
8.2.8
Image Deconvolution
.212
8.3
Optical Configurations
.212
8.3.1
High Aperture Objective-Based
TIR
.212
8.3.2
TIRF with a Prism
.217
8.3.3
TIR
from Multiple Directions
.223
8.3.4
Rapid Chopping between
TIR
and
EPI
.224
8.3.5
Surface Near-Field Imaging
.225
8.4
General Experimental Considerations
.226
Contents XIII
8.5 TIRF
vs. other Optical Section Microscopies
.231
References
.233
9
Nonlinear Optical Microscopy
F.
Lagugné
Labarthet, Y.R. Shen
.237
9.1
Introduction
.237
9.2
Second Harmonic Nonlinear Microscopy
.239
9.2.1
Basic Principle of SHG
.239
9.2.2
Coherence Effects in SH Microscopy
.242
9.2.3
Scanning Near-Field
Nonlinear Second Harmonic Generation
.243
9.3
Sum Frequency Generation Microscopy
.246
9.3.1
Basic Principle of Sum Frequency Generation
.246
9.3.2
Far-Field SFG Microscopy
.247
9.3.3
Near-Field SFG Imaging
.250
9.4
Third Harmonic Generation Microscopy
.251
9.5
Coherent Anti-Stokes Raman Scattering Microscopy
.252
9.6
Multiphoton Excited Fluorescence Microscopy
.256
9.6.1
Two-Photon Excited Fluorescence (TPEF) Microscopy
.257
9.6.2
TPEF Far-Field Microscopy Using Multipoint Excitation
.260
9.6.3 4-й
Confocal TPEF Microscopy
.261
9.6.4
Simultaneous SHG/TPEF Microscopy
.262
9.6.5
Three-Photon-Excited Fluorescence Microscopy
.263
9.6.6
Stimulated-Emission-Depletion (STED)
Fluorescence Microscopy
.263
9.7
Conclusion
.264
References
.265
10
Parametric Nonlinear Optical Techniques in Microscopy
M.
Müller, G.J.
Brakenhoff
.269
10.1
Introduction
.269
10.2
Nonlinear Optics
-
Parametric Processes
.270
10.2.1
Introduction
.270
10.2.2
Optical Sectioning Capability
.272
10.2.3
Second Harmonic Generation (SHG)
.272
10.2.4
Third Harmonic Generation (THG)
.273
10.2.5
Coherent Anti-Stokes Raman Scattering (CARS)
.274
10.3
Third Harmonic Generation (THG) Microscopy
.275
10.3.
Î
General Characteristics
.275
10.3.2
Selected Applications
.277
10.3.3
Summary
.280
10.4
Coherent Anti-Stokes Raman Scattering (CARS) Microscopy
.281
10.4.1
General Characteristics
.281
10.4.2
Multiplex CARS
.283
10.4.3
Summary
.286
XIV Contents
10.5
Conclusion
.286
References
.288
11
Second Harmonie
Generation Microscopy
Versus
Third
Harmonie
Generation Microscopy in Biological Tissues
C.-K. Sun
.291
11.1
Introduction
.291
11.2
SHG Microscopy
.292
11.3
Bio-Photonic Crystal Effect in Biological SHG Microscopy
.293
11.4
THG Microscopy
.300
11.5
Conclusion
.302
References
.303
Part
Ш
Miscellaneous Methods in Optical Imaging
12
Adaptive Optics
С
Dainty
.307
12.1
Introduction
.307
12.2
Historical Background
.308
12.3
Strehi
Ratio and
Wavefront
Variance
.311
12.4
Wavefront
Sensing
.312
12.5
Deformable Mirrors and Other Corrective Devices
.315
12.6
The Control System
.317
12.7
Low Cost
АО
Systems
.320
12.8
Current Research Issues in Astronomical Adaptive Optics
.322
12.9
Adaptive Optics and the Eye
.324
References
.326
13
Low-Coherence Interference Microscopy
C.J.R. Sheppard, M.Roy
.329
13.1
Introduction
.329
13.2
Geometry of the Interference Microscope
.332
13.3
Principle of Low-Coherence
Interferometry
.333
13.4
Analysis of White-Light Interference Fringes
.335
13.4.1
Digital Filtering Algorithms
.336
13.4.2
Phase Shift Algorithms
.336
13.5
Spatial Coherence Effects
.338
13.6
Experimental Setup
.339
13.6.1
The Illumination System
.339
13.6.2
The Interferometer
.339
13.7
Experimental Results
.341
13.8
Discussion and Conclusion
.342
References
.344
Contents
XV
14
Surface
Plasmen
and Surface Wave Microscopy
M.G. Somekh
.347
14.1
Introduction
.347
14.2
Overview of SP and Surface Wave Properties
.348
14.3
Surface Wave Generation and Contrast Mechanisms
in Surface Wave Microscopy
.354
14.4
Surface Plasmon Microscopy
-
Kretschmann Prism Based Methods
_361
14.5
Objective Lenses for Surface Plasmon Microscopy
.363
14.6
Objective Lens Based Surface Plasmon Microscopy:
Non
Interferometrie
Methods
.368
14.6.1
Scanning Methods
.368
14.6.2
Wide Field SP and Surface Wave Microscopy
.369
14.6.3
Scanning Fluorescence Surface Wave Microscopy
.374
14.7
Objective Lens
Interferometrie
Techniques
.383
14.7.1
Scanning
Interferometry
.383
14.7.2
Widefield
Interferometrie
Techniques
.389
14.8
Discussion and Conclusions
.392
14.8.1
Relationship of SP Methods with TIR(F)M Methods
.393
14.8.2
Localized SPs
.394
14.8.3
'Exotic' Techniques
.394
References
.396
15
Optical Coherence Tomography
A.M.
Zysk,
S.A.
Boppart
.401
15.1
Introduction
.401
15.2
Principles of Operation
.402
15.3
Technological Developments
.406
15.3.1
Optical Sources for High-Resolution Imaging
.406
15.3.2
Spectroscopic
OCT
.408
15.3.3
Real-Time
Volumetric
OCT
Imaging
.410
15.3.4
Optical Coherence Microscopy
.411
15.3.5
Beam Delivery Systems
.414
15.3.6
Contrast Agents and Molecular Imaging
.415
15.4
Applications
.418
15.4.1
Developmental Biology
.418
15.4.2
Cellular Imaging
.420
15.4.3
Medical and Surgical Microscopy
-
Identifying Tumors
and Tumor Margins
.423
15.4.4
Image-Guided Surgery
.426
15.4.5
Materials Investigations
.428
15.5
Conclusions
.430
References
.432
XVI Contents
16
Near-Field Optical Microscopy and Application to Nanophotonics
M. Ohtsu
.437
16.1
Introduction
.437
16.2
Nano-Scale
Fabrication
.438
16.2.1
Depositing Zinc and Aluminum
.438
16.2.2
Depositing Zinc Oxide
.443
16.3
Nanophotonic Devices and Integration
.444
16.3.1
Switching by Nonlinear Absorption in a Single Quantum Dot
. 445
16.3.2
Switching by Optical Near-Field Interaction
Between Quantum Dots
.446
16.4
Optical Storage and Readout by Optical Near-Field
.449
16.5
Conclusion
.452
References
.453
17
Optical Trapping of Small Particles
A.
Rohrbach,
E.H.K.
Stelzer.455
17.1
Introduction
.455
17.2
Optical Trapping
.456
17.2.1
Principles
.456
17.2.2
Optical Tweezers
.458
17.2.3
Photonic Force Microscopy
.460
17.2.4 3D
Tracking with Coherent Light
.463
17.2.5
Atom Traps
.463
17.3
Theory
.464
17.3.1
Arbitrary Focused Fields
.464
17.3.2
Scattering by Focused Fields
.466
17.3.3
Interferometrie
Position Detection
.466
17.3.4
Trapping forces
.469
17.3.5
Thermal Noise
.471
17.4
Experimental Setup and Techniques
.472
17.4.1
Mechanics and optics
.472
17.4.2
Lasers and Probes
.473
17.4.3
Electronics
.474
17.4.4
Calibration of Trap and Position Detector
.474
17.4.5
Time-Multiplexed and Holographic Optical Traps
.478
17.5
Applications in Brownian Systems
.479
17.5.1
Particle Binding and Uptake by a Living Cell
.480
17.5.2
Imaging Nano-Mechanical Properties of Single Molecules
.481
17.6
Summary and Outlook
.483
References
.483
Index
.491 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| building | Verbundindex |
| bvnumber | BV023317339 |
| callnumber-first | T - Technology |
| callnumber-label | TA1750 |
| callnumber-raw | TA1750 |
| callnumber-search | TA1750 |
| callnumber-sort | TA 41750 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UH 5100 UH 6700 |
| ctrlnum | (OCoLC)123434521 (DE-599)DNB982334095 |
| dewey-full | 502.8 535.028 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 502 - Miscellany 535 - Light and related radiation |
| dewey-raw | 502.8 535.028 |
| dewey-search | 502.8 535.028 |
| dewey-sort | 3502.8 |
| dewey-tens | 500 - Natural sciences and mathematics 530 - Physics |
| discipline | Maschinenbau / Maschinenwesen Allgemeine Naturwissenschaft Physik Biologie |
| discipline_str_mv | Maschinenbau / Maschinenwesen Physik Allgemeine Naturwissenschaft Biologie |
| edition | 2., rev. ed. |
| format | Book |
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| id | DE-604.BV023317339 |
| illustrated | Illustrated |
| index_date | 2024-07-02T20:52:33Z |
| indexdate | 2024-07-20T09:40:40Z |
| institution | BVB |
| isbn | 9783540695639 354069563X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016501491 |
| oclc_num | 123434521 |
| open_access_boolean | |
| owner | DE-92 DE-83 DE-11 DE-355 DE-BY-UBR DE-19 DE-BY-UBM |
| owner_facet | DE-92 DE-83 DE-11 DE-355 DE-BY-UBR DE-19 DE-BY-UBM |
| physical | XIX, 497 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Springer |
| record_format | marc |
| series | Springer series in optical sciences |
| series2 | Springer series in optical sciences |
| spelling | Optical imaging and microscopy techniques and advanced systems Peter Török ... [eds.] 2., rev. ed. Berlin [u.a.] Springer 2007 XIX, 497 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in optical sciences 87 Literaturangaben Imaging systems Microscopy Optoelectronic devices Optisches System (DE-588)4126186-0 gnd rswk-swf Mikroskopie (DE-588)4039238-7 gnd rswk-swf Optische Abbildung (DE-588)4258512-0 gnd rswk-swf Optische Abbildung (DE-588)4258512-0 s Optisches System (DE-588)4126186-0 s DE-604 Mikroskopie (DE-588)4039238-7 s 1\p DE-604 Török, Peter Sonstige oth Springer series in optical sciences 87 (DE-604)BV000000237 87 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2889575&prov=M&dok_var=1&dok_ext=htm Inhaltstext Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016501491&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Optical imaging and microscopy techniques and advanced systems Springer series in optical sciences Imaging systems Microscopy Optoelectronic devices Optisches System (DE-588)4126186-0 gnd Mikroskopie (DE-588)4039238-7 gnd Optische Abbildung (DE-588)4258512-0 gnd |
| subject_GND | (DE-588)4126186-0 (DE-588)4039238-7 (DE-588)4258512-0 |
| title | Optical imaging and microscopy techniques and advanced systems |
| title_auth | Optical imaging and microscopy techniques and advanced systems |
| title_exact_search | Optical imaging and microscopy techniques and advanced systems |
| title_exact_search_txtP | Optical imaging and microscopy techniques and advanced systems |
| title_full | Optical imaging and microscopy techniques and advanced systems Peter Török ... [eds.] |
| title_fullStr | Optical imaging and microscopy techniques and advanced systems Peter Török ... [eds.] |
| title_full_unstemmed | Optical imaging and microscopy techniques and advanced systems Peter Török ... [eds.] |
| title_short | Optical imaging and microscopy |
| title_sort | optical imaging and microscopy techniques and advanced systems |
| title_sub | techniques and advanced systems |
| topic | Imaging systems Microscopy Optoelectronic devices Optisches System (DE-588)4126186-0 gnd Mikroskopie (DE-588)4039238-7 gnd Optische Abbildung (DE-588)4258512-0 gnd |
| topic_facet | Imaging systems Microscopy Optoelectronic devices Optisches System Mikroskopie Optische Abbildung |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=2889575&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016501491&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000000237 |
| work_keys_str_mv | AT torokpeter opticalimagingandmicroscopytechniquesandadvancedsystems |