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 WEDNESDAY 26 SEPTEMBER <strong>2012</strong><br />
HARBOUR ROOM B GRAND BALLROOM B GRAND BALLROOM C GRAND BALLROOM E<br />
plasmon resonance sensor.<br />
WI4 11:30 AM - 11:45 AM<br />
Comparison of Semiconductor-based,<br />
Etalon-Stabilized 10 GHz Frequency<br />
Comb Sources, J. Davila-Rodriguez, I. Ozdur<br />
and P. J. Delfyett, University of Central Florida,<br />
Orlando, FL, USA<br />
A comparative study of the performance of 10<br />
GHz, semiconductor-based comb sources is<br />
presented with regard to the optical linewidth,<br />
stability of the comb modes, total optical bandwidth<br />
and timing jitter.<br />
WJ4 11:30 AM - 11:45 AM<br />
Dual-Wavelength, Carbon Nanotube<br />
Mode-Locked Fiber Laser, F. Wang,<br />
Z. Jiang, Z. Sun, D. Popa, T. Hasan, F. Torrisi and<br />
A. C. Ferrari, University of Cambridge,<br />
Cambridge, UK<br />
We demonstrate a dual-wavelength, carbon<br />
nanotube mode-locked Er fiber laser. The laser<br />
outputs two wavelengths at 1549nm and<br />
1562nm, and each wavelength corresponds to<br />
pulse duration of ~1.3ps and repetition rate of<br />
~11.27MHz.<br />
WK3 11:30 AM - 12:00 PM (Invited)<br />
Transparent Composite Electrode for<br />
High-Efficiency Polymer OLEDs, Q. Pei,<br />
University of California - Los Angeles, Los<br />
Angeles, CA, USA<br />
Polymer composite electrodes based on silver<br />
nanowires or carbon nanotubes have been<br />
prepared with high transparency, surface conductivity,<br />
and low roughness suitable for the<br />
fabrication of OLEDs. The resulting OLEDs<br />
exhibit high efficiency and mechanical flexibility.<br />
WL4 11:30 AM - 11:45 AM<br />
Experimental Study of the<br />
Supercontinuum Laser Propagation<br />
Characteristics in the Atmosphere, Z. Lei<br />
and Z. Qihua, China Academy of Engineering<br />
Physics, Mianyang, Sichuan, China<br />
Propagation characteristics of the supercontinuum<br />
laser in the atmosphere are studied<br />
experimentally by a wide aperture expanding and<br />
launching system without aberration. Near field,<br />
angle drift, wavefront and far field are measured<br />
and analyzed.<br />
WI5 11:45 AM - 12:00 PM<br />
Measuring the Temporal Focusing of<br />
Ultrashort Airy-Bessel Wave Packets,<br />
P. Piksarv, H. Valtna-Lukner, A. Valdmann,<br />
M. Lõhmus, R. Matt and P. Saari, University of<br />
Tartu, Tartu, Estonia<br />
A technique for full spatio-temporal characterization<br />
of impulse responses of optical systems<br />
with an almost one-wave-cycle temporal resolution<br />
was developed. It was employed to<br />
characterize ultrashort Airy-Bessel light bullets<br />
generated by a circular diffraction grating.<br />
WJ5 11:45 AM - 12:00 PM<br />
40 Gb/s All-Optical Clock Recovery Using<br />
a Semiconductor Fiber Laser and<br />
Nonlinear Optical Loop Mirror, T. Huang,<br />
J. Sun, Wuhan National Laboratory for<br />
Optoelectronics, Wuhan, Hubei, China, J. Li and<br />
L. R. Chen, McGill University, Montréal, QC,<br />
Canada<br />
We demonstrate 40 Gb/s all-optical clock<br />
recovery using semiconductor fiber laser modelocked<br />
by a nonlinear optical loop mirror. Clock<br />
signal with a timing jitter of 372 fs, and a power<br />
fluctuation of 0.089 are obtained.<br />
WK4 12:00 PM - 12:15 PM<br />
Optical Outcoupling by Oriented<br />
Emission in Top and Bottom Emitting<br />
OLEDs, L. Penninck and K. Neyts, Ghent<br />
University, Ghent, Belgium<br />
Recently preferential orientation was demonstrated<br />
in phosphorescent emitters. We simulate<br />
the efficiency of oriented emitters in bottom and<br />
top-emitting OLEDs. The oucoupling is<br />
increased by a factor 1.4 and 1.68 for bottom and<br />
top emission.<br />
WK5 12:15 PM - 12:30 PM<br />
A Novel 4-TFT Pixel Circuit with<br />
Threshold Voltage Compensation for<br />
AMOLED Displays, M. Yang,<br />
N. P. Papadopoulos, W. S. Wong and<br />
M. Sachdev, University of Waterloo, Waterloo,<br />
Canada<br />
The proposed pixel circuit for active-matrix<br />
organic-light-emitting diode display compensates<br />
threshold-voltage-shift (ΔV th) of drive TFT<br />
by utilizing ΔV th-dependent charge injection<br />
caused by TFT-based Metal-Insulator-<br />
Semiconductor capacitor. Its effectiveness is<br />
verified by the simulation results.<br />
Page 52