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[IEEE 2019 IEEE 2nd International Conference on Knowledge Innovation and Invention (ICKII) - Seoul, Korea (South) (2019.7.12-2019.7.15)] 2019 IEEE 2nd International Conference on Knowledge Innovation and Invention (ICKII) - A Physical Threshold Voltage Model of Nanoscale Ultra-thin Body Ultra-thin Box SOI MOSFETs with a Gaussian Doping Profile
摘要: An insightful study of the virtual cathode is performed for the nanoscale ultra-thin body ultra-thin box SOI MOSFETs with a vertical Gaussian doping. And the physical, compact threshold voltage model is derived based on an analytical solution of two-dimensional Poisson equation with the evanescent-mode analysis. The accuracy of the model has been verified by 2D numerical device simulations using Sentaurus Technology Computer-Aided Design (TCAD) from Synopsys. Applying the newly developed model, the threshold voltage sensitivities to channel length, silicon-film thickness, buried-oxide thickness, and the channel doping concentration have been comprehensively investigated. Good agreements are achieved. Model predictions indicate that the individual UTBB-SOI MOSFET with a non-uniform doping profile is feasible at 10 nm scale. This work has both theoretical and practical significance and provide aids in promoting theoretical modeling research and applications of new UTBB-SOI based devices.
关键词: UTBB-SOI MOSFET,Analytical model,Gaussian doping,Virtual cathode
更新于2025-09-23 15:21:01
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Untangling the contributions of image charge and laser profile for optimal photoemission of high-brightness electron beams
摘要: Using our model for the simulation of photoemission of high brightness electron beams, we investigate the virtual cathode physics and the limits to spatio-temporal and spectroscopic resolution originating from the image charge on the surface and from the profile of the exciting laser pulse. By contrasting the effect of varying surface properties (leading to expanding or pinned image charge), laser profiles (Gaussian, uniform, and elliptical), and aspect ratios (pancake- and cigar-like) under different extraction field strengths and numbers of generated electrons, we quantify the effect of these experimental parameters on macroscopic pulse properties such as emittance, brightness (4D and 6D), coherence length, and energy spread. Based on our results, we outline optimal conditions of pulse generation for ultrafast electron microscope systems that take into account constraints on the number of generated electrons and on the required time resolution.
关键词: laser profile,coherence length,virtual cathode,electron beams,image charge,photoemission,emittance,energy spread,brightness
更新于2025-09-16 10:30:52