Educational Projects

 

 

08/2024 – 08/2025
Design and Simulation of a Diffractive Optics-Based Exit Pupil Expander for Augmented Reality in Ansys Zemax OpticStudio:

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Objective: 
Design a compact diffractive-optics waveguide for AR that widens both field of view and eye-box.
Main Contributions: 
Introduced dual-wing expanders, wire-grid polarizers, and an integrated expander/out-coupler grating to realize a single thin glass combiner.
Key Result: 
Delivered 90° diagonal full-colour FOV with a 12 × 10 mm eye-box, high contrast, and <5 % luminance variation.
Tools: 
Zemax OpticStudio, Lumerical, Ansys Speos, Fourier-Modal Method, ray tracing, and genetic-algorithm optimization.
 
06/2019 – 09/2020
Study the Electric Field and Voltage Analysis of Copper sheet through ANSYS ELECTRIC:

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Objective: 
To investigate the behavior of materials under electrical loads, voltage-field interactions in copper sheets were simulated.
Main Contributions: 
Verified theoretical models by demonstrating a linear relationship between applied voltage and electric field intensity, achieving a slope of 6.67 V/m per volt.
Maximum field intensity: 
3000 V/m was recorded at 450V input, indicating that the material is stable at high voltages.
Tools: 
Finite Element Analysis (FEA) and ANSYS Electric (ANSYS Workbench).