Graduate researcher with a background in Electrical Engineering and Physics, combining strong skills in simulation, theoretical modeling, and experiments on photonics, quantum technologies, electromagnetics, and microwave engineering.
MSc in Physics | Quantum Photonics
Supervisor: Prof. Kai Wang
BSc in Electrical Engineering | Microwave & Photonics
Supervisor: Prof. Amin Khavasi
Astronomy & Astrophysics Olympiad
Selected as the 2nd member of the Iranian team preparing for the International Olympiad (IOAA)
Diploma in Mathematics & Physics sciences
MATLAB: Numerical methods, equation solving, visualization, and Simulink.
Python: MATLAB-like use, object-oriented programming, and library integration.
Mathematica: MATLAB-like use, analytic expressions, and Plotting.
C/C++: Data structures and algorithms, including sorting, searching, and recursion.
COMSOL: Ray Optics, Wave Optics, AC/DC, and RF modules.
LUMERICAL: Waveguides, couplers, ring resonators, and MZ interferometers in FDTD/FDE solvers.
Optics-Studio: Design and optimization of efficient optical systems, including aberration analysis.
HFSS/ADS: Design of waveguides, resonators, filters, power dividers, couplers, and antennas.
Optical/Photonics: Worked with lasers, optical fibers, spectrum analyzer, free-space lenses, polarizers, and mirrors. Interferometry, modulation and characterization of fiber ring resonators.
Microwave: Design and test S-parameters with VNA for wideband filters, couplers, resonators, power dividers, and Impedance matching using rectangular and microstrip waveguides.
Antenna: Beam pattern characterization of dipole, helical, Yagi-Uda, slot, horn, parabolic reflector, patch, and phased array antennas.
Electronics: Design and measurement of filters, amplifiers, and modulators synthesized with passive (RLC) and active (BJT/CMOS) components, utilizing signal generators and oscilloscopes.
Photonic Engineering: Theoretical and numerical (FEM/FDTD) analysis of electromagnetic structures, from classical to quantum optics. Guided wave analysis for microwave and optical paths, including modes, dispersion, and coupling theory. Familiar with laser theory, non-linear optics, photonic crystals, semiconductors, scattering, and optical imaging theories.
Quantum Engineering: Quantum computing, information, and sensing systems (Photonic, optomechanical, and superconducting )
Control Engineering: Analysis of linear and nonlinear systems and the design of control systems, including PIDs. Modeling and control of spacecraft dynamics.
Signal Processing: Analyzing, filtering, and sampling 1D/2D analog or digital signals.
Communication: Theory of probability, information, random processes, noise, modulation, and multiplexing in both analog and digital systems. background in both classical and quantum communication, based on optical signals.
Theoretical Physics: Electrodynamics, solid-state physics, mechanics, and thermodynamics, with applications in engineering. Also quantum theory, relativity, and quantum field theory.
English: Advanced
French: Intermediate (B1)
Persian: Native
Theoretical: Developing analytical models and implementing numerical simulations to investigate the generation of squeezed coherent states via parametric down-conversion in nonlinear open systems. The goal is to optimize squeezing performance, reduce multiphoton components, and enhance key rates in quantum key distribution (QKD) systems.
Theoretical: Investigating topological properties of tight-binding models with lattice symmetries. Exploring photonic time crystal behavior in non-Hermitian Floquet models to identify topological edge states.
Experimental: Developing a synthetic frequency dimension setup using a ring resonator and optical fiber loop to simulate non-Hermitian lattices, testing theoretical models via phase/amplitude modulation.
Theoretical: Studied and analyzed the dispersion properties of twisted α − M oO3 bilayers and the transmission characteristics of twisted photonic crystal slabs.
Simulation: Performed numerical simulations using Finite Difference in Frequency Domain (FDFD) for twisted α − M oO3 bilayers and Rigorous Coupled-Wave Analysis (RCWA) for photonic crystal slabs. Simulated the behavior of both systems at finite frequencies using COMSOL and Lumerical.
Experimental: Hands-on experience with free-space optical instruments, including implementing a Michelson interferometer to measure the vibrations of the optical table and analyze their decay.
Theoretical: Applied inverse scattering theory to reconstruct 3D images from millimeter-wave imaging system data, where rotating transmitter and receiver antennas scanned the body for security screening, detecting concealed objects hidden under clothing.
Photonics: Quantum Optics, Nonlinear Optics, Guided Wave Optics, Fourier Optics, Quantum Communications 1 & 2, Plasmonics & Metamaterials
Applied Physics: Applied Quantum Mechanics, Quantum Theory, Solid State Physics, Many-Body Physics, Advanced Statistical Mechanics, Experimental Condensed Matter
Engineering: Scattering Theory of Electromagnetic Waves, Advanced Antenna Theory, Advanced Engineering Mathematics
Quantum & Photonics: Fiber Optics Communications, Principles of Optics & Photonics, Quantum Mechanics
Electromagnetics: Electromagnetics, Fields & Waves, Microwave Engineering, Microwave Design & Construction Lab, Electromagnetic Simulation Lab, Antenna Lab
Engineering: Linear Control, Nonlinear Control, Communication Systems, Electronics
Awarded based on academic merit to international students pursuing an M.Sc. at McGill University.
Top rank among all applicants nationwide. Issued by Sanjesh Organization.
Top 10 rank among all applicants nationwide. Issued by Sanjesh Organization.
Awarded among 250 students from 43 countries. Held in China.
Awarded as a member of Allameh-Helli High School’s physics team. Held in Kazakhstan, with 72 teams from 15 countries.
Ranked among the top 10 in Iran’s National Olympiad. Granted direct admission to all Iranian universities.
Electromagnetism & Optics(Prof. Hong Guo): graded exams and provided tutorial classes.
Mechanics and Waves (Prof. Ken Regan): graded exams.
Topics in Classical Mechanics (Prof. Guillaume Gervais): provided tutorial classes.
Introduction to Mechanics (Prof. Simon Caron-Huot): graded exams and provided tutorial classes.
Quantum Communication 1 (Prof. Jawad Salehi): provided and graded assignments and exams.
Control Engineering Laboratory (Prof. Amin Nobakhti): graded assignments.
Engineering Mathematics (Prof. Ali Banai): provided and graded assignments.
Communication Systems (Prof. Hamid Behroozi): provided assignments and tutorial classes.
Signals & Systems (Prof. Arash Amini): graded assignments.
Electromagnetic Fields & Waves (Prof. Mohammad Memarian): provided COMSOL assignments and course projects.
Electromagnetics (Prof. Mohammaad Memarian): provided assignments, course projects and tutorial classes.
Electromagnetics (Prof. Amin Khavasi): provided assignments.
Young Scholars Club: Classical and Celestial Mechanics - Cosmology - Data Analysis - Sky Observation
Allameh-Helli, Farzanegan, and other gifted high schools: Classical and Celestial Mechanics - Astrophysics - Cosmology - Galactic Dynamics - Sky Observation