Advanced Microscopy

Takayoshi Kobayashi is a Professor Emeritus of The University of Tokyo, Chair Professor of National Chiao-Tung University, and guest professors at the University of Electro-Communications and Tokyo University of Science. His research interest include quantum electronics, laser physics, femtosecond spectroscopy, ultrafast nonlinear optics, quantum optics, chemical physics, quantum information science and technology.

Chapter 1- Preface & Introduction

Chapter 2.1.1- Optimal detection angle in sub-diffraction resolution photothermal microscopy: application for high sensitivity imaging of biological tissues

Chapter 2.1.2- Resolution enhanced pump-probe microscope with a spatial filter

Chapter 2.1.3- Reduction of distortion in photothermal microscopy and its application to the high- resolution three-dimensional imaging of nonfluorescent tissues

Chapter 2.2.1- Numerical study of the subtraction threshold for fluorescence difference microscopy

Chapter 2.2.2- Sub-diffraction-limit imaging using mode multiplexing

Chapter 2.2.3- Polarization modulation for fluorescence emission difference microscopy

Chapter 2.2.4- Numerical study of super-resolved optical microscopy with partly staggered beams

Chapter 2.2.5- Resolution enhancement of pump-probe microscopy with an inverse-annular spatial filter

Chapter 3.1- Sub-diffraction resolution pump-probe microscopy with shot-noise limited sensitivity using laser diodes

Chapter 3.2- Sensitivity enhancement of photothermal microscopy with radially segmented balanced detection

Chapter 3.3- Fast 3D visualization of endogenous brain signals with high-sensitivity laser scanning photothermal microscopy

Chapter 4.1.1- Numerical calibration of the spatial overlap for subtraction microscopy

Chapter 4.1.2- Polarization modulation for fluorescence emission difference microscopy

Chapter 4.1.3- Subtraction threshold for an isotropic fluorescence emission difference microscope

Chapter 4.2- Noise cancellation with phase-detection technique for pump-probe measurement and application to stimulated Raman imaging

Chapter 4.3- Simultaneous dual-wavelength imaging of nonfluorescent tissues with 3D subdiffraction photothermal microscopy

Chapter 5.1- Gray-level co-occurrence matrix analysis of several cell types in mouse brain using resolution-enhanced photothermal microscopy

Chapter 5.2- Label-free imaging of melanoma with nonlinear photothermal microscopy

Chapter 5.3- Noninvasive, label-free, three-dimensional imaging of melanoma with confocal photothermal microscopy: Differentiate malignant melanoma from benign tumor tissue

Chapter 5.4- Label-Free Imaging of Melanoma with Confocal Photothermal Microscopy: Differentiation between Malignant and Benign Tissue

Chapter 6.1- Development of a multiplex stimulated Raman microscope for spectral imaging through multi-channel lock-in detection

Chapter 6.2- Multiplex stimulated Raman imaging with white probe-light from a photonic-crystal fibre and with multi-wavelength balanced detection

Chapter 6.3- Theoretical description for nonlinear dynamic light scattering based on stimulated Raman effect (NLDLS-SRS) O Number 662