Time-resolved optical beam induced current mapping of photonic device

Liao, Yu-chi

01 July 2006

Optical beam induced current mapping has found wide-spread applications in charactering semiconductor devices and integrated circuitry. Conventionally a focused cw laser beam is employed to excite carriers in the depletion region that is subsequently detected to form the contrast signal for scanning imaging. Device defects that may quench the photo-generated carriers can then be easily revealed. However, such detection is static in nature and the dynamics behavior of a device remains unknown. In this study, we are using a pulsed laser with high repetition rate and a high frequency phase sensitive lock-in loop to achieve temporal resolution at sub-nanosecond. In this way, the temporal response at a selected position on the device can be characterized

OBIC

Time-Resolved

Investigating the effect of impedance matching on LED with Time-resolved Electro-luminescence Microscopy

Lin, Li-wei

23 July 2007

As the great studies have been made in light emitting diodes, the application becomes more variety for different field. High bright light emitting diodes apply a new light source for fluorescence lifetime measurements. We use confocal scanning microscopy and a high frequency sensitive lock-in amplifier to obtain the electroluminescence image at ten of micrometer. We drive the light emitting diodes by radio frequency signal and observe it. We parallel connection an inductance to match the parasitic capacity in high frequency to obtain better light emitted brightness.

LED

time-resolved

electroluminescence

Designing infrared probes of DNA based on rhenium tricarbonyl DPPZ complexes

Dyer, Joanne

January 2003

No description available.

543.57

Time-resolved infrared spectroscopy

Time-resolved Luminescence Studies of Cr doped crystal

Wu, Yu-hua

22 July 2008

Chromium doped crystals exhibit different emitting properties for their different valance species and the host crystals. Ruby shows narrow twin peaks around 694 nm for its Cr3+ ions. Cr4+:YAG has a broadband luminescence range on 1.1~1.6£gm, which is suitable for optical communication. The thesis aims to study the luminescent spectra of Cr ions in different crystal structure (Al2O3 and YAG). Cr concentration dependent spectra indicate Cr3+ moving toward the octahedron sites. It results the change of luminescent spectra and luminescent decay lifetime. Both FTIR and confocal microscopy are used for the investigations. Step-scan FTIR provides the relation of luminescence intensity relating to both wavenumber and delay time, of the external light source.The high numerical aperture optics in the confocal microscope provides higher collection efficiency, and results a better S/N ratio. In addition, Raman spectra are measured. Ruby and sapphire crystals exhibit different Raman spectra, which results from the electronic resonance of the Cr3+ ions in the ruby crystal.

FTIR

time-resolved

YAG

YVO4

Time Resolved Flourescence and Diffuse Reflectance Measurements for Lung Squamous Carcinoma Tumor Margins / OPTICAL PROPERTIES FOR LUNG CANCER MARGIN DETECTION

Costa, Sarah

January 2023

Lung cancer is the leading cause of death from cancer in Canada and is typically treated with surgical resection of the tumor. To ensure good prognosis and limit metastases no cancer cells can be left behind during resection. This project uses time-resolved fluorescence and diffuse reflectance to differentiate cancerous and non-cancerous lung tissue. These differences could be used during surgical resection of tumor to ensure no positive margins are present. Using a bi-modal spectroscopy device, BEAR, optical properties were determined for 36 tumor, 36 fibrotic and 9 normal lung tissue samples. Most optical parameters showed statistically significant differences between tumor and other tissue types. Metabolic based optical parameters showed statistically significant differences between fibrotic and normal tissue while non-metabolic based parameters showed no difference. As surgical margins are likely to be between tumor and fibrotic tissue the results demonstrate success and promise for implementing this system. Future work using fresh samples would develop the system further and would be a step closer to in vivo use during surgery. / Thesis / Master of Science (MSc) / Lung cancer is the leading cause of death from cancer and is typically treated by surgically removing the tumor. To improve survival all cancer cells must be removed which can be challenging. This project uses light to extract properties that can differentiate cancerous and non-cancerous lung tissue. These differences could be used during surgery to ensure no cancer cells remain. The project tests this system on 36 tumor, 36 fibrotic and 9 normal lung tissue samples. Most parameters showed significant differences between tumor and other tissue types. Given that often times the surgical boundaries are between tumor and fibrotic tissue the results demonstrate promise in implementing this system. Future work using fresh samples would develop the system further and bring it one step closer to being used during surgery.

Time Resolved Fluorescence

Diffuse Reflectance

Semiconductor Quantum Dots Studied by Time-Resolved Luminescence Techniques

Siegert, Jörg

January 2004

<p>In this thesis time-resolved photoluminescence spectroscopyis presented as a powerful tool to study the carrier dynamicsin various self-assembled quantum dot (QD) structures, whichare potentially attractive for device applications.</p><p>The experiments reveal the impact of proton irradiation onInGaAs QDs and comparable quantum wells. Nonradiativerecombination at defects–an important material parameterand“measure”of the structure optical quality–is found to play a much less important role for the QD samples.The superior radiation hardness can be explained as a result ofthe three-dimensional carrier confinement in QDs. Comparisonsbetween the structures show a decrease of photoluminescenceintensity for quantum wells but a slight increase for QDsirradiated at low to intermediate doses. This somewhatunexpected characteristic is described by an enhanced carriertransfer into the dots via the defects introduced in thematerial by the protons.</p><p>In a different structure carrier dynamics in spatiallyaligned of InAs QDs are investigated. Alignment along lines isachieved by misfit dislocations deliberately introduced in thesubstrate. Photoluminescence spectra of the dots exhibit muchsmaller inhomogeneous broadening than for the reference sampleas a result of an improved QD uniformity. Samples with varyingbuffer layer thicknesses were grown to study the influence ofdislocation related traps on the observed fastphotoluminescence decay. It is found that the fast carriertrapping is predominantly caused by point defects close to theQDs or at the QD/barrier interfaces.</p><p>Additional numerical simulations confirm the roles of thetwo independently acting traps in nonradiativerecombination.</p>

quantum dots

semiconductors

photoluminescence

time-resolved

Energy dispersive EXAFS studies on homogeneous metal catalysts

Rahman, Mohd Basyaruddin Abdul

January 1999

No description available.

546

Nickel catalysts; Time resolved EXAFS

Intensity-resolved Above Threshold Ionization Yields of Atoms with Ultrashort Laser Pulses

Hart, Nathan Andrew

2011 August 1900

The above threshold ionization (ATI) spectra provide a diversity of information about a laser-atom ionization process such as laser intensity, pulse duration, carrier envelope phase, and atomic energy level spacing. However, the spatial distribution of intensities inherent in all laser beams reduces the resolution of this information. This research focuses on recovering the intensity-resolved ATI spectra from experimental data using a deconvolution algorithm. Electron ionization yields of xenon were measured for a set of laser pulse intensities using a time of flight (TOF) setup. Horizontally polarized, unchirped, 50fs pulses were used in the ionization process. All laser parameters other than the radiation intensity were held constant over the set of intensity measurements. A deconvolution algorithm was developed based on the experimental parameters. Then the deconvolution algorithm was applied to the experimental data to obtain the intensity-resolved total yield probability and ATI spectra. Finally, an error analysis was performed to determine the stability and accuracy of the algorithm as well as the quality of the data. It was found that the algorithm produced greater contrast for peaks in the ATI spectra where atom specific resonant behavior is observed. Additionally, the total yield probability showed that double ionization may be observed in the ionization yield. The error analysis revealed that the algorithm was stable under the experimental conditions for a range of intensities.

ATI

ionization probability

multiphoton

intensity-resolved

Electro-characteristics of large-sized LED using TR-EL mapping and laser cutting

Wang, Hong-Gia

17 July 2007

Time-resolved electroluminescence has been primarily and widely applied in the field of optoelectronic devices and phosphor materials. Here we use the method to measure the response time and phase difference of green light-emitting diode. In our experiment, which is essentially dominated by pulsed signal from function generator¡Bhigh spatial resolution from laser scanning microscopic and phase-lock characteristic from lock-in amplifier to complete our experimental result. We are capable to detect relative carrier information within any point or any surface region from epi-layer of green light-emitting diode. Otherwise, the carrier transport of the sample is able to be observed through time-resolved characteristic measurement. Laser cutting would be beneficial for obvious phase-difference observation and mobility acquirement.

phase

time-resolved

electroluminescence

response time

Time-resolved spectroscopic studies of selected photoremovable protecting groups

An, Huiying, 安慧颖

January 2010

published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Protective groups (Chemistry)

Photochemistry.

Time-resolved spectroscopy.