You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
TECHNICAL PROGRAM MONDAY 24 SEPTEMBER <strong>2012</strong><br />
HARBOUR ROOM B GRAND BALLROOM B GRAND BALLROOM C GRAND BALLROOM E<br />
8:30 AM - 9:30 AM<br />
Session MA: Tutorial I<br />
Session Chair: Chennupati Jagadish,<br />
Australian National University, Canberra,<br />
Australia<br />
8:30 AM - 10:00 AM<br />
Session MB: Microscopy and<br />
Imaging<br />
Session Chair: Dirk J. Faber, Academic<br />
Medical Center of the University of Amsterdam,<br />
Amsterdam, The Netherlands<br />
8:30 AM - 10:00 AM<br />
Session MC: Microwave Photonic<br />
Signal Generation<br />
Session Chair: Everett W. Jacobs, SPAWAR<br />
Systems Center - Pacific, San Diego, CA, USA<br />
8:30 AM - 10:00 AM<br />
Session MD: Single Photon Counting<br />
Systems<br />
Session Chair: Bora M. Onat, Princeton<br />
Lightwave, Inc., Cranbury, NJ, USA<br />
MA1 8:30 AM - 9:30 AM (Tutorial)<br />
Solar Cell, V. Dalal, Iowa State University,<br />
Ames, IA, USA<br />
ABSTRACT NOT AVAILABLE<br />
MB1 8:30 AM - 9:00 AM (Invited)<br />
Non Linear In-Vivo Flourescence<br />
Microscopy, F. S. Pavone, European<br />
Laboratory for Non-Linear Spectroscopy, Sesto,<br />
Firenze, Italy<br />
A brief review on the nonlinear laser imaging<br />
techniques will be displayed. In particular, tumor<br />
detection in tissue imaging applications will be<br />
shown in different fields, together with the possibility<br />
to manipulate tissue samples.<br />
MC1 8:30 AM - 9:00 AM (Invited)<br />
High Spectral Purity Microwave<br />
Generation via Optical Division,<br />
T. M. Fortier, F. J. Quinlan, J. Taylor, A. Hati,<br />
C. W. Nelson, N. Lemke, A. D. Ludlow,<br />
D. Liebrandt, T. Rosenband, D. Howe, Y. Fu,<br />
J. C. Campbell, C. W. Oates and S. A. Diddams,<br />
National Institute of Standards and Technology,<br />
Boulder, CO, USA<br />
We generate 10 GHz microwave signals from<br />
high quality factor (Q~10 11 ) optical resonators via<br />
optical frequency division. The demonstrated<br />
phase noise is comparable to or better than that<br />
obtained via cryogenic systems for timescales<br />