Modeling of Radiation Effects in Silicon Photonic Devices PROJECT TITLE :Modeling of Radiation Effects in Silicon Photonic DevicesABSTRACT:The influence of high energy radiations on the performance of silicon-on-insulator photonic devices, like straight waveguides, ring resonators and Raman lasers based mostly on resonant microcavities, has been investigated theoretically within the close to infrared. The modeling is based on a generalized full-vectorial wave equation system that additionally includes deep defect rate equations. Simulation results are compared with the state-of-the-art, demonstrating a terribly sensible agreement between theoretical predictions and experiments reported in literature within the case of each ionizing and nonionizing events. Moreover, a parametric analysis is presented in order to analyze the degradation mechanisms of photonic device performance that occur below the influence of radiation bombardment. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Synchrophasor-Based Islanding Detection for Distributed Generation Systems Using Systematic Principal Component Analysis Approaches Quantum cryptography and its applications over the internet