Poster Presentations
26th Monday, September | ||
Session P | Biomedical and paper metrology | |
P1 I. Nishidate, T. Maeda, Y. Aizu, K. Niizeki and H. Mishina | ||
Visualization of depth and thickness of a local blood region in skin tissue using diffuse reflectance images | ||
P2 E. Alarousu, M. Okkonen and R. Myllylä | ||
Iterative restoration of optical coherence tomography images of paper structure | ||
P3 H. Xia, K. Ishii and T. Iwai | ||
Low-coherence dynamic light scattering measurements of constrained particles diffusion in concentrated and interacting colloidal suspensions | ||
P4 S. Nakamura, K. Ishii and T. Iwai | ||
Numerical simulation of scattering point distribution of path-length-resolved scattered light | ||
P5 D. V. Semenov, E. Nippolainen and A. A. Kamshilin | ||
Measurement of the paper thickness by use of dynamic speckles | ||
Session Q | Optical devices and metrology | |
Q1 A. Kamshilin, K. Paivasaari, H. Tuovinen and E. Raita | ||
Quality inspection of composite structures using laser ultrasonics | ||
Q2 K. Nakamoto, T. Yamabe, H. Murotani and M. Wakaki | ||
Analysis of fabrication process of microlenses on a glass plate using CO2 laser | ||
Q3 T. Nakamura, K. Hirobe and T. Matsuda | ||
Optical properties of wing-scales of mrpho butterfly | ||
Q4 H. Funamizu and J. Uozumi | ||
Speckle structures described on the basis of multifractal analysis | ||
Q5 Y. Ohara, M. Tsuchiya, M. Ohkawa, S. Sekine and T. Sato | ||
Silicon-based guided-wave optical flow sensor based on Bernoulli's theorem | ||
Q6 D. Sakai, K. Harada and S. Kamemaru | ||
Direct fabrication of holographic light diffusers using corona charging | ||
Q7 Y. Yamamoto, R. Onodera and Y. Ishii | ||
Metrological application of a two-dimensional discrete Hilbert transform | ||
Session R | Holography and structure formation | |
R1 K. Terada, T. Takahashi and Y. Ishii | ||
Laser-diode stratified reflection holograms with red sensitive photopolymers | ||
R2 N. Aoki, T. Takahashi, R. Onodera and Y. Ishii | ||
Three-dimensional object reconstruction by laser-diode wavelength-shifting digital holography | ||
R3 M. Yokota, Y. Terui and I. Yamaguchi | ||
Polarization analysis by digital holography with a flint glass fiber Faraday rotator | ||
R4 S. Rehman, K. Matsuda and M. Roy | ||
Phase-difference amplification using digital holography | ||
R5 Y. Harada, K. Tsuchida and S. Waga | ||
One-shot phase-shifting digital holography based on the spatial carrier interferometry | ||
R6 M. Shimazaki, R. Maimaiti and Y. Harada | ||
Analysis for generation process of 2D crystal-like structures of small particles created by the radiation pressure of single laser beam |