Learn about the theory, techniques and applications of wavefront shaping in biomedical imaging using this unique text. With authoritative contributions from researchers who are defining the field, cutting-edge theory is combined with real-world practical examples, experimental data and the latest research trends to provide the first book-level treatment of the subject. It is suitable for both background reading and use in a course, with coverage of essential topics such as adaptive optical microscopy, deep tissue microscopy, time reversal and optical phase conjugation, and tomography. The latest images from the forefront of biomedical imaging are included, and full-colour versions are available in the eBook version. Researchers, practitioners and graduate students in optics, biophotonics, biomedical engineering, and biology who use biomedical imaging tools and are looking to advance their knowledge of the subject will find this an indispensable resource.
Author(s): Joel Kubby, Sylvain Gigan, Meng Cui
Series: Advances in Microscopy and Microanalysis
Publisher: Cambridge University Press
Year: 2019
Language: English
Pages: 472
Cover......Page 1
Front Matter
......Page 3
Advances in Microscopy and Microanalysis......Page 5
Wavefront Shaping for
Biomedical Imaging......Page 7
Copyright
......Page 8
Dedication
......Page 9
Contents
......Page 11
Contributors......Page 16
Preface......Page 19
Notation......Page 23
Part I: Adaptive Optical Microscopy
for Biological Imaging
......Page 25
1 Adaptive Optical Microscopy Using
Image-Based Wavefront Sensing......Page 27
2 Adaptive Optical Microscopy Using
Guide Star–Based Direct Wavefront
Sensing......Page 46
Part II: Deep Tissue Microscopy
......Page 83
3 Deep Tissue Fluorescence
Microscopy......Page 85
4 Zonal Adaptive Optical Microscopy
for Deep Tissue Imaging......Page 116
Part III: Focusing Light through Turbid
Media Using the Scattering Matrix
......Page 143
5 Transmission Matrix Approach to
Light Control in Complex Media......Page 145
6 Coupling Optical Wavefront Shaping
and Photoacoustics......Page 162
7 Imaging and Controlling Light
Propagation Deep within Scattering
Media Using a Time-Resolved
Reflection Matrix......Page 185
Part IV: Focusing Light through Turbid
Media Using Feedback
Optimization
......Page 211
8 Feedback-Based Wavefront Shaping......Page 213
9 Focusing Light through Scattering
Media Using a Microelectromechanical
Systems Spatial Light
Modulator......Page 241
10 Computer-Generated Holographic
Techniques to Control Light
Propagating through Scattering
Media Using a Digital-Mirror-Device
Spatial Light Modulator......Page 264
11 Reflection Matrix Approaches in
Scattering Media: From Detection
to Imaging......Page 279
Part V: Time Reversal, Optical Phase
Conjugation
......Page 305
12 Wavefront-Engineered Optical
Focusing into Scattering Media
Using Ultrasound- or
Perturbation-Based Guide Stars:
TRUE, TRAP, SEWS, and PAWS......Page 307
13 Transmission Matrix Correlations......Page 339
Part VI: Shaped Beams for Light Sheet
Microscopy
......Page 353
14 Light Sheet Microscopy with
Wavefront-Shaped Beams: Looking
Deeper into Objects and Increasing
Image Contrast......Page 355
15 Shaped Beams for Light Sheet
Imaging and Optical Manipulation......Page 382
Part VII: Tomography
......Page 403
16 Incoherent Illumination Tomography
and Adaptive Optics......Page 405
17 Computational Adaptive Optics for
Broadband Optical Interferometric
Tomography of Biological Tis......Page 428
Index......Page 447
Plate Section
......Page 449
