Biophotonics Japan 2015
Proceedings Volume 9792 is from: Logo
27-28 October 2015
Tokyo, Japan
Front Matter: Volume 9792
Proc. SPIE 9792, Front Matter: Volume 9792, 979201 (16 December 2015);
Plenary Session
Proc. SPIE 9792, Interferometric and nonlinear-optical spectral-imaging techniques for outer space and live cells, 979203 (9 December 2015);
Nonlinear Microscopy
Proc. SPIE 9792, In situ monitoring of biomolecular processes in living systems using surface-enhanced Raman scattering, 979206 (9 December 2015);
Proc. SPIE 9792, Alkyne-tag Raman imaging of bio-active small molecules in live cells, 979207 (9 December 2015);
Holographic Microscopy
Proc. SPIE 9792, Enhancement mechanism of fluorescence intensity in presence of plasmonic nanoparticles, 979208 (9 December 2015);
Microscopic Imaging
Proc. SPIE 9792, Non-interferometric quantitative phase imaging of yeast cells, 97920G (9 December 2015);
Optical Coherent Tomography I
Proc. SPIE 9792, A novel microfluidic model to mimic the turbid nature and microvasculature of cutaneous tissue for optical imaging experiments, 97920J (9 December 2015);
Optical Coherent Tomography II
Proc. SPIE 9792, Extension of depth-resolved reconstruction of attenuation coefficients in optical coherence tomography for slim samples, 97920P (9 December 2015);
Proc. SPIE 9792, Optical multi-frequency swept sensing for wide-field vibration measurement of interior surfaces in biological tissue, 97920Q (9 December 2015);
Proc. SPIE 9792, Determination of scattering coefficient considering wavelength and absorption dependence of anisotropy factor measured by polarized beam for biological tissues, 97920T (9 December 2015);
Optical Coherent Tomography III
Proc. SPIE 9792, Time-gated digital phase conjugation for two-photon excitation microscopy through multimode optical fibers, 97920X (9 December 2015);
Proc. SPIE 9792, Quantitative phase imaging of cell division in yeast cells and E.coli using digital holographic microscopy, 97920Y (9 December 2015);
Proc. SPIE 9792, Research on imaging, sensing, and characterization of cells at Research Center for Applied Sciences (RCAS), Academia Sinica, 979212 (9 December 2015);
Proc. SPIE 9792, A coupling model of the radiative transport equation for calculating photon migration in biological tissue, 979214 (9 December 2015);
Poster Session
Proc. SPIE 9792, Assessment of laser speckle flowgraphy: Development of novel cutaneous blood flow measurement technique, 979218 (9 December 2015);
Proc. SPIE 9792, Real-time system for extracting and monitoring the cerebral functional component during fNIRS measurements, 979219 (9 December 2015);
Proc. SPIE 9792, Numerical study of light propagation in agricultural products for non-destructive assessment of food quality, 97921A (9 December 2015);
Proc. SPIE 9792, Expansion of dynamic range in Shack-Hartmann wavefront sensor using dual microlens array, 97921B (9 December 2015);
Proc. SPIE 9792, Alternative natural dyes in water purification: Anthocyanin as TiO2-sensitizer in rhodamin B photoelectrodegradation, 97921E (9 December 2015);
Proc. SPIE 9792, Estimation of crosstalk in LED fNIRS by photon propagation Monte Carlo simulation, 97921H (9 December 2015);
Proc. SPIE 9792, Optical characterization of murine model's in-vivo skin using Mueller matrix polarimetric imaging, 97921J (9 December 2015);
Proc. SPIE 9792, Multispectral Stokes polarimetry for dermatoscopic imaging, 97921P (15 December 2015);
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