Global ETD Search

1	Flexible Crystalline Silicon Solar Cell Zhang, Wei 01 1900 (has links) <p>A new type of flexible silicon solar cell has been fabricated by interconnecting solar cell die on a flexible substrate. The fabrication process is described in this thesis. The solar cell die were diced using two methods. One method was to dice a solar cell completely through. The other method was to dice a solar cell from its back partially and then cleave through. To study the effects of different dicing methods on the performance of solar cell die, storage delay time measurement was employed to determine the lifetime of excess electrons in the p region of the two types of solar cell die. A laser beam induced current (LBIC) scanning technique was employed to study the electrical performance of the two types of solar cell die. The carrier diffusion lengths of two types of solar cell die were also determined by traveling light spot diffusion length measurement.</p><p>The theoretical response of a solar cell was compared to experimental results at various incident light angles. OpticLab software was used to model the incident light angle and lens spacing dependence of solar cell performance.</p> / Thesis / Master of Applied Science (MASc)
2	The Applications of Two-photon Confocal Microscopy and Micro-spectroscopy¡GOBIC imaging of InGaN LEDs and their Micro-spectra Huang, Mao-Kuo 26 June 2000 (has links) In this thesis the methods of optical beam induced current (OBIC), multi-photon excitation, and confocal microscopy were employed to study InGaN LED¡¦s. Recently, important breakthrough and achievement have been made in the developments of InGaN based opto-electronic components. As a result, it is important to characterize the properties and the performance of InGaN based devices with various techniques. In this thesis, we have used 2-photon OBIC microscopy to observe various such LED¡¦s. We found that the LED¡¦s exhibit dotted pattern which can not be seen under 1-photon excitation. In addition, we have employed micro-spectroscopy to characterize the active layer of these LED¡¦s. These results will be discussed in this thesis in detail. InGaN LED optical beam induced current confocal microscopy
3	A comparison between time-resolved electroluminescence mapping and time-resolved optical beam induced current mapping in large area LEDs Weng, Chin-shu 17 July 2008 (has links) The major purpose of LED is the electroluminescence. We use the time-resolved electroluminescence (TR-EL) method to measure the response time of LED in our experiments. In addition, typical diode has optical beam induced current (OBIC) characteristic in its depletion region. Combining upon physical reaction we can compare TR-EL and OBIC in the same LED. We are using the high frequency function generator, pulsed laser with high repetition rate, laser scanning confocal microscopy and a high frequency phase sensitive lock-in loop to achieve temporal resolution. The response time of LED can be measured in two different physical characteristic. time-resolved optical beam induced current electroluminescence response time
4	Time-resolved optical beam induced current mapping in InGaN LED Lin, Yu-fong 17 July 2008 (has links) We have implemented the time-resolved technique at frequency domain on a laser scanning microscope to investigate light emitting diodes. Leds are not high-speed device, so we use e-o modulator to change its frequency of Laser and finish the experiment. In this way, temporal response of a device can be mapped at high spatial resolution. We are using a Ti : sapphire laser and a high frequency phase sensitive lock-in loop to achieve time-resolved the dynamics properties of the light emitting devices.Laser used to excite carriers in the depletion region detected form the contract signal for scanning imaging. We can observe the OBIC effect and measure the response time of light emitting devices. Time-resolved LED OBIC Optical Beam Induced Current
5	Measurements of radiation induced currents in RF coil conductors Ghila, Andrei Dorin Unknown Date No description available. Radiation induced current RF Coils Linac-MR Skin dose
6	Characterization of Radiation Induced Current in RF coils of Linac-MR Systems Burke, Benjamin Unknown Date No description available. Linac-MR MRI Radiation Induced Current RF Coils
7	Hydrodynamic Modeling of the Impact of a Proposed New Coastline Groyne Structure on Floating Debris Pathways at Paget Farm, in Saint Vincent and the Grenadines April LeQuéré, Philippe January 2017 (has links) To accommodate an increasing number of tourists visiting Bequia, the second largest island of Saint-Vincent and the Grenadines, the local government constructed an airport, through a major coastline land-reclamation project. However, due to the prevailing ocean current patterns in the area, an inlet created on the east side of the new airport is prone to trapping significant amounts of ocean-borne debris. This litter accumulation creates a health risk to local fishermen who clean their daily catch using water from the inlet. It is proposed to install a rubble-mound groyne structure on the eastward side of the new inlet to address this problem. The utilisation of a coastline groyne in this case is somewhat unorthodox, as the latter is normally employed to mitigate against coastal erosion. The goal of this study is to optimise the groyne design with the assistance of a 3D numerical model. The ‘Delft3D’ open-source model (WAVE and FLOW modules) was selected to examine the effects of different orientations and lengths of the proposed groyne on the movements of floating debris. Included in the initial phase of the study was a field investigation to collect certain data which were necessary for model calibration and validation. This involves the use of an Acoustic Doppler Current Profiler (ADCP) to measure local shore bathymetry and also current velocities over a range of tidal cycles. Bequia Numerical model Delft3D Hydrodynamic Tide-induced current Groyne
8	Scanning Photocurrent and Photoluminescence Imaging of Frozen Polymer Light Emitting Electrochemical Cells Inayeh, Alex 29 May 2013 (has links) A polymer light-emitting electrochemical cell (LEC) is a solid-state polymer device operating according to in situ electrochemical doping and the formation of a light-emitting polymer p-n junction. This operating mechanism, however, has been the subject of much debate. Planar LECs with millimeter scale interelectrode spacings offer great advantages for directly observing the electrochemical doping process. Photoluminescence quenching and the formation of a light-emitting junction have been observed in planar polymer LECs, demonstrating the existence of electrochemical doping. The chemical potential difference between the p- and n-doped regions creates a built-in potential/electric field in the junction region, which can be probed by measuring the optical beam induced current (OBIC). This study utilizes a versatile and easy-to-use method of performing OBIC analysis. The OBIC and photoluminescence profiles of LECs have been simultaneously measured by scanning a focused light beam across large planar LECs that have been turned on and cooled to freeze the doping profile. The photoluminescence intensity undergoes a sharp transition between the p- and n-doped regions. The OBIC photocurrent is only observed in the transition region that is narrower than the width of the excitation beam, which is about 35 μm. The results depict a static planar polymer p-n junction with a built-in electric field pointing from n to p. The electrode interfaces do not produce a measurable photocurrent indicating ohmic contact. / Thesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2013-05-28 12:52:14.171 OBIC polymer optical scan LEC optical beam induced current light emitting electrochemical cells photocurrent
9	Mapping of ESD Induced Defects on LEDs with Optical Beam Induced Current Microscopy Wang, Wei 29 July 2009 (has links) Optical beam induced current (OBIC) mapping has found wide-spread applications in characterizing semiconductor devices and integrated circuitry. In this study, we have used a two-photon scanning microscope to investigate InGaN light emitting diodes (LED). The defects induced by electrostatic discharge (ESD) can be clearly identified by DC-OBIC images. Additionally, we have combined an E-O modulator and a high frequency phase sensitive lock-in amplifier to conduct time-resolved study on the dynamical properties of the LEDs. The defects also exhibit different delay time when compared with the normal parts. Confocal microscope Light emitting diodes Electrostatic discharge Optical beam induced current
10	Electrical Properties and Band Diagram of InSb-InAs Nanowire Type-III Heterojunctions Chen, Chao-Yang 21 November 2013 (has links) The electrical properties of nanowire-based n-InSb-n-InAs heterojunctions grown by chemical beam epitaxy were investigated both theoretically and experimentally. This heterostructure presented a type-III band alignment with the band bendings at 0.12 eV for InAs side and 0.16 − 0.21 eV in InSb. Analysis of the temperature dependent current voltage characteristics showed that the current through the heterojunction is caused mostly by generation-recombination processes in the InSb and at the heterointerface. Due to the partially overlapping valence band of InSb and the conduction band of InAs, the second process was fast and activationless. Theoretical analysis showed that, depending on the heterojunction parameters, the flux of non-equilibrium minority carriers may have a different direction, explaining the experimentally observed non-monotonic coordinate dependence of the electron beam induced current at the vicinity of heterointerface. Nanowire III-V semiconductor Nanotechnology Electron Beam Induced Current 0794 0611

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