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A Computationally Efficient Method for Simulating Metal-Nanowire Dipole Antennas at Infrared and Longer Visible Wavelengths

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ABSTRACT:

This paper presents a numerically efficient approach for simulating nanowires at infrared and long optical wavelengths. A computationally efficient circuit-equivalent modeling approach based on the electric-field integral-equation (EFIE) formulation is employed to simulate the highly dispersive behavior of nanowires at short wavelengths. The proposed approach can be used both for frequency-domain and for time-domain EFIE formulations. In comparison with widely used full-wave solutions achieved through the finite-difference time-domain method, the circuit-based EFIE formulation results in a sharp reduction of the computational resources while retaining high accuracy.

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Computationally Efficient Simulation of High-Frequency Transients in Power Electronic Circuits

PROJECT TITLE :Computationally Efficient Simulation of High-Frequency Transients in Power Electronic CircuitsABSTRACT:A computationally economical simulation framework is about forth in that the semiconductor devices are represented

Efficient, Non-Iterative Estimator for Imaging Contrast Agents With Spectral X-Ray Detectors

PROJECT TITLE :Efficient, Non-Iterative Estimator for Imaging Contrast Agents With Spectral X-Ray DetectorsABSTRACT:An estimator to image contrast agents and body materials with x-ray spectral measurements is described. The estimator

Computationally Aware Switching Criteria for Hybrid Model Predictive Control of Cyber-Physical Systems

PROJECT TITLE :Computationally Aware Switching Criteria for Hybrid Model Predictive Control of Cyber-Physical SystemsABSTRACT:This paper describes hybrid model predictive controllers that switch between 2 predictor functions based

A Computationally Efficient Motion Primitive for Quadrocopter Trajectory Generation

PROJECT TITLE :A Computationally Efficient Motion Primitive for Quadrocopter Trajectory GenerationABSTRACT:A methodology is presented for the speedy generation and feasibility verification of motion primitives for quadrocopters

A Computationally Efficient PM Power Loss Mapping for Brushless AC PM Machines With Surface-Mounted PM Rotor Construction

PROJECT TITLE :A Computationally Efficient PM Power Loss Mapping for Brushless AC PM Machines With Surface-Mounted PM Rotor ConstructionABSTRACT:This paper describes a computationally economical approach for mapping rotor power

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