This book covers the principle, structure, enhancement of sensitivity and resolution power of photothermal and Raman microscopies. It includes real-world applications to biological and medical targets.
This book covers the principle, structure, enhancement of sensitivity and resolution power of photothermal and Raman microscopies. It includes real-world applications to biological and medical targets.
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.
Inhaltsangabe
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
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
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