Dr. Muhammad Idrees | Optics and Quantum Dots | Best Researcher Award
Doctorate at Zhejiang Normal University, China
Education
Muhammad Idrees earned his Doctor of Philosophy in Physics from the Department of Physics at Zhejiang University, Hangzhou, China, in June 2023. He completed his Master of Philosophy in Science with a focus on Quantum Optics from the University of Malakand, Pakistan, in September 2016, and his Bachelor of Science in Physics from the same university in September 2014, graduating with First Division honors.
Academic Qualification
Muhammad Idrees completed his Doctor of Philosophy in Physics at Zhejiang University, Hangzhou, China, focusing on Optics. He holds a Master of Philosophy in Science from the University of Malakand, Pakistan, with a specialization in Quantum Optics, and a Bachelor of Science in Physics from the same institution, graduating with first division honors.
Certifications and Training
- 🔍Theoretical Physics
- 🔍Quantum Optics
- 🔍Nonlinear Optics
- 🔍Quantum Information
- 🔍Plasmonics
- 🔍Quantum Dots
- 🔍Complex and Functional Analysis
- 🔍Numerical Solutions of ODEs
- 🔍Numerical Optimization
Skills
- Theoretical and Experimental Optics: Expertise in Quantum Optics, Nonlinear Optics, and Plasmonics.
- Mathematical and Computational Skills: Proficient in complex analysis and numerical optimization techniques.
- Research and Review: Experience in reviewing for high-impact journals and publishing significant research articles.
Publication top notes
- “Enhancement of Goos-Hanchen Shift via Chiral Quantum-Dot Molecules System” – Physical Review A (2023).
- “Phase-sensitive manipulation of atom localization using probe field transmission spectrum” – Optical and Quantum Electronics (2021).
- “High-Resolution Two-Dimensional Atomic Localization via Tunable Surface Plasmon Polaritons” – Plasmonics (2021).
- “Spatial-dependent probe transmission based high-precision two-dimensional atomic localization” – Communications in Theoretical Physics (2021).
- “Tunable phase and angular momentum dependent enhanced rotary photon drag in a gain assisted medium” – Optical and Quantum Electronics (2021).