Biophotonics Summer School 2012
1- BSS12 Welcome2- Intro to: Fourier optics, Light scattering, Holography, QPI (Parts 1 and 2)
3- Intro to: Fourier Optics, Light Scattering, Holography, QPI (Part 3)
4- Nonlinear Optics and Microscopy
5- Basic Principles of Fluorescence
6- Early History of Lifetime Measurements and Lifetime Imaging
7- Some Examples of FLIM Analysis
8- How Physics and Modern Computers Have Revolutionized Imaging
9- A Tour of the Cell
10- Intro to Cellular Bioengineering
11- Breast Cancer Biomarkers: From Serendipity to Rational Discovery
12- Optical Coherence Tomography
13- Spectroscopic Imaging
14- A Tutorial on Optical Characterization Methods; VI1, VI2, VI3, VI4
15- Intro to Nanophotonics
16- Plasmonics and Metamaterials
17- Photonic Bionsensors
18- Optical and Computational Approaches to Multidimensional Live Cell Imaging
19- Computational Adaptive Optics for Broadband Interferometric Tomography
20- Quantitative phase imaging: methods
21- Quantitative Phase Imaging: Live Cell Applications
22- Scattering, Absorbing, and Modulating Molecular Probes for Targeted Imaging and Therapy
23- Plasmon-resonant Nanoparticles for Biological Imaging
24- Selective Agents for Sensing and Imaging Based on Functional DNA Technology
25- Chemical imaging for cancer pathology
26- Fast Relaxation Imaging: protein dynamics inside cells
27- Colorimetric Nanoplasmonic Molecular and Cellular Imaging
28- Nanophotonic Detection of Drug Binding to Cytochrome P450 Using Localized Surface Plasmon Resonance Spectroscopy
29- Photonic Crystal Enhanced Fluorescence Imaging
30- Single Molecule Fluorescence and Optical Trapping Applied to Molecular Motors: Two Can Do it Better Than One