Conveners
(R3-2) Biophotonics II - DAMOPC-DIAP / Biophotonique II - DPAMPC-DPIA: DAMOPC-DIAP/DPAMC-DPIA
- Alex Brown (University of Alberta)
Prof.
James Fraser
(Queen's University)
19/06/2014, 15:45
Industrial and Applied Physics / Physique industrielle et appliquée (DIAP-DPIA)
Oral (Non-Student) / orale (non-étudiant)
Laser materials processing can differ by orders of magnitude in terms of both the light-matter interaction times and the spatial dimensions of the interaction regions. This multiplicity has stymied efforts to develop a universal tool for on-line laser process monitoring and control. Previously, we developed a diagnostic called inline coherent imaging (ICI) for real-time, in-situ measurements...
Dr
Sébastien Blais-OUellette
(Photon etc.)
19/06/2014, 16:00
Division of Atomic, Molecular and Optical Physics, Canada / Division de la physique atomique, moléculaire et photonique, Canada (DAMOPC-DPAMPC)
Invited Speaker / Conférencier invité
Current cellular imaging technology often rely on marking specific cellular components with fluorescent dyes. The broad emission spectrum of these fluorophores limits however the number of markers which can be used simultaneously in a single image. To overcome this limitation, several researchers have developed nanomarkers with narrow emission bands. When used in combination with hyperspectral...
Alain Villeneuve
(Genia Photonics)
19/06/2014, 16:30
Division of Atomic, Molecular and Optical Physics, Canada / Division de la physique atomique, moléculaire et photonique, Canada (DAMOPC-DPAMPC)
Invited Speaker / Conférencier invité
Genia Photonics has developed a robust, easy-to-use, fiber-based source for multimodal imaging and spectroscopic solutions directed at in-vivo imaging. Optical Coherence Tomography, Second Harmonic Generation, Coherent Anti-Stokes Raman Scattering (CARS) and Stimulated Raman Scattering (SRS) have already been demonstrated with the system on in-vitro and ex-vivo samples. Other techniques such...