Omid Abed

Omid Abed

Electrical Engineer

Biography

Hi 👋! I’m Omid
I am an Ph.D. student of applied physics in university of Jena. I got my master’s degree in electrical engineering from University of Tehran. My research interests include nano and quantum opics. I’m also interested in machine learning. During my studies, I gained experience in multiphysics simulations, scientific programming, and deep learning.

Interests

  • Nano optics
  • Quantum optics
  • Artificial intelligence

Education

  • MSc in Electrical Engineering, 2020

    University of Tehran

  • BSc in Electrical Engineering, 2017

    Azad University

Skills

Python

80%
• Pandas
• Data visualization
• Scikit
• Tensorflow

matlab

MATLAB

80%
• 4 years experience in scientific programming

comsol

COMSOL Multiphysics

95%
• Electromagnetics module
• AC/DC module
• Semiconductor module

deep-learning

Machine Learning

80%
• Supervised learning
• Unsupervised learning
• Deep neural networks
• Convolutional neural networks
• Sequence models(LSTM, recurrent models,…)

Experience

 
 
 
 
 

Chief Teaching Assistant

University of Tehran

Jul 2019 – Jan 2020
Chief Teaching Assistant for Engineering Electromagnetics.
 
 
 
 
 

Researcher

Nanophotonics Research Group

Jun 2018 – Apr 2021 University of Tehran
Design and simulation of tunable nanophotonic devices
 
 
 
 
 

Teaching Assistant

University of Tehran

Jul 2017 – Jan 2018
Teaching Assistant in circuit lab.
 
 
 
 
 

Microcontroller programming Intern

Nira System

Feb 2016 – May 2016
Learning fundamentals of microcontrollers and helping senior engineers for programming them.

Projects

Realization of Optical Beam Steering for Integrated Lidars

Design tunable metasurfaces in near-IR region for high-speed and wide-range beam steering.

Recent Publications

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Double Axis Optical Beam Steering Using a Voltage Controlled Tunable Metasurface

We proposed a voltage-controlled, high-speed tunable meatsurface capable of steering the beam in 2 orthogonal axes.

Free Space Beam Shaping Using phase-change Reconfigurable metasurfaces

We showed beam steering capability of a novel phase change material based tunable metasurface.

Voltage-Controlled Tunable Metasurface Based on Phase Change Materials and Transparent Graphene Heaters

We proposed a voltage-controlled tunable meatsurface capable of steering the beam in a 130° range.