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This is the two-dimensional electromagnetic field analysis program for arbitrary objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the three-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a plane wave. This is based on boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TE plane wave (transverse electric wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the three-dimensional electromagnetic field analysis program for two-dimensional periodic arrangement objects irradiated by a plane wave. This is based on boundary element method, the own developed numerical solution is used.
Semiannual project of the subject of Optical Physics, taught at Centro Universitário FEI. It consists of some programs developed in python in order to perform some calculations
This is the two-dimensional electromagnetic field analysis program for arbitrary objects irradiated by a TE plane wave (transverse electric wave). This is based on the boundary element method, the own developed numerical solution is used.
Visualisation of phase and group velocity, standing waves, circular polarisation and reflection coefficients for parallel and perpendicular polarisation
Electromagnet Motion Explorer is an innovative project aimed at studying pendulum damping motion through LED modeling and the development of a user-friendly desktop application. This project serves as a comprehensive study tool, providing intricate mathematical models, accurate simulations, and the integration of machine learning models.
Simulation of Biot-Savart law - Analytical solution to calculate magnetic field of an arbitrarily shaped coil. MATLAB and Python interface are provided.
Web application that displays conductivity and permittivity graphs of a number of tissues. Allows user to manipulate tissue data using the Debye model in order to accurately simulate the propagation of an electromagnetic wave through the human body. The purpose is to help in the development of healthcare devices that use electromagnetic waves.
This is the three-dimensional electromagnetic field analysis program for arbitrary object irradiated by arbitrary beams. The radiation force acting on the object can be analyzed. This is based on boundary element method, the own developed numerical solution is used.
3D U-net, Attention U-net, Res U-net, Attention Res U-net, and MSRes U-net are implemented and compared for emulation of current density induced during transcranial direct current stimulation (tDCS).
This program was done as an assignment in my graduate Computational Physics course at San Diego State University. It solves Poisson's equation, in two dimensions.