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Instituto Nacional de Astrofísica, Óptica y Electrónica |
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Instituto Nacional de Astrofísica, Óptica y Electrónica |
(El horario y orden de los expositores está sujeto a modificaciones hasta el 16 de junio)
| Lunes | Martes | Miercoles | Jueves | Viernes | |
|---|---|---|---|---|---|
| 08:45-09:00 | Inauguración: Alberto Carramiñana |
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| 09:00-09:55 | Francis Esmonde-White | Francis Esmonde-White | Francis Esmonde-White | Francis Esmonde-White | Francis Esmonde-White |
| 10:00-10:55 | Daniel Gareau | Daniel Gareau | Tomas Cizmar | Tomas Cizmar | Tomas Cizmar |
| 10:55-11:20 | Coffee Break | Coffee Break | Coffee Break | Coffee Break | Coffee Break |
| 11:20-12:15 | Walfre Franco | Steven Gross | Daniel Gareau | Walfre Franco | Steven Gross |
| 12:20-13:15 | Francisco Renero | Tomas Cizmar | Walfre Franco | Daniel Gareau | Clausura |
| 13:15-16:00 | Comida | Comida | Comida | Comida | |
| 16:00-16:55 | Francisco Renero | Francisco Renero | Steven Gross | Daniel Gareau | |
| 17:00-18:00 | Steven Gross | Walfre Franco | Jorge Castro | Steven Gross | |
| 18:00 | Wellcome Reception | Mexican Dances & food |
Francis Esmonde, Department of Chemistry, University of Michigan.
Lecture 1: An introduction to Raman spectroscopy, and practical aspects for collecting Raman data
Lecture 2: Validating In Vivo Raman spectroscopy of bone, and a brief introduction to working with living human subjects, human cadavers, and animals
Lecture 3: Modeling deep tissue spectroscopy using phantoms and imaging, using Finite Element Modeling, and Monte Carlo simulations
Lecture 4: Chemometrics: Data preprocessing and analysis in Raman spectroscopy
Lecture 5: Spectral tomography and fiber optic probes for clinical translational work
Steven Gross, University of California, Irvine
Lecture 1: Introduction to the cell, and molecular motors
Lecture 2: Optical traps: their construction, use, and calibration
Lecture 3: In vitro studies of molecular motors
Lecture 4: in vivo studies of molecular motors
Lecture 5: modeling/computational approaches: what is their role?
Tomas Cizmar, University of Dundee UK
Lecture 1-Optical manipulation - principles and applications
Lecture 2-Tractor beams
Lecture 3-Photonics in complex media
Lecture 4-Bio-medical photonics (applications of optical manipulation and holography)
Daniel Gareau, The Rockefeller University Nueva York
Lecture 1: introduction to skin optics
Lecture 2: in vivo spectroscopy
Lecture 3: detection of non melanoma skin cancer
Lecture 4: melanoma detection
Lecture 5: Monte Carlo modeling of photon transport in skin
Walfre Franco, Wellman Center for Photomedicine, Harvard University
Lighting up biological tissues
Lecture 1. Photomedicine
Lecture 2. A glowing figure in the dark: the skin fluorescence story
Lecture 3. Photons to the rescue... of whales?
Lecture 4. Lessons from laser tissue ablation: can skin be copied?
Francisco Renero, INAOE
Lecture 1. Quantification of foot morphology
Lecture 2. Muscle-scheletic system for physicist I
Lecture 2. Muscle-scheletic system for physicist II
Jorge Castro INAOE
Spectroscopy and Machine Learning techniques for classification: color, lesions, and moisture on skin.