Assoc. Prof. Dr. Farrokh Sarreshtedari, Department of Physics, University of Tehran, Iran
Dr. Farrokh Sarreshtedari is an Associate Professor in the Department of Physics at the University of Tehran, Iran ๐ฎ๐ท. With a Ph.D. in Physics, his research specializes in atomic spectroscopy, laser-matter interactions, cold atom interferometry, SQUID-based magnetometry, and superconducting devices ๐๐. He has published extensively in leading journals, including Physical Review, Review of Scientific Instruments, and IEEE Transactions on Applied Superconductivity ๐. His innovative work spans quantum optics, magnetometry, and numerical modeling. Dr. Sarreshtedari continues to contribute significantly to experimental and theoretical physics, mentoring students and collaborating internationally
Publication Profile
Google Scholar
๐ Research Focus
Dr. Farrokh Sarreshtedariโs research centers on quantum optics, laser-atom interactions, atomic population dynamics, and SQUID-based magnetometry โ๏ธ๐งฒ. His work involves population transfer in two-level systems, Landau-Zener transitions, and stimulated Raman adiabatic passage, highlighting advanced quantum control methods using chirped laser pulses and RF excitation ๐ก๐ก. He also specializes in non-destructive evaluation (NDE) using finite element modeling (FEM) and superconducting quantum interference devices (SQUIDs) for precise magnetic field measurements in noisy environments ๐๐. His interdisciplinary expertise bridges quantum physics, atomic spectroscopy, and applied superconductivity, contributing to both theoretical insights and experimental innovations
Conclusion
Assoc. Prof. Dr. Farrokh Sarreshtedari’s prolific publication record across high-impact journals, continuous advancement in quantum optics, magnetometry, and applied superconductivity, and cross-disciplinary collaborations make him exceptionally well-qualified for the Best Researcher Award. His research has both theoretical depth and real-world impact, aligning perfectly with the award’s purpose to recognize transformative scientific contributions.
Publication Top Notes
๐ Optimization of NDE characterization parameters for a RF-SQUID based system using FEM analysis โ ๐ Cited by 26 โ ๐
2009ย
๐ Tunable Landau-Zener transitions using continuous-and chirped-pulse-laser couplings โ ๐ Cited by 21 โ ๐
2017ย
๐ A superconductor THz modulator based on vortex flux flow โ ๐ Cited by 13 โ ๐
2009ย
๐ Investigation of robust population transfer using quadratically chirped laser interacting with a two-level system โ ๐ Cited by 12 โ ๐
2019ย
๐ Investigation of the laser controlled LandauโZener mechanism in a coupled quantum system โ ๐ Cited by 12 โ ๐
2017ย
๐ Analytical model for the extraction of flaw-induced current interactions for SQUID NDE โ ๐ Cited by 10 โ ๐
2011ย
๐ Optimized design of low-cost, sensitive and versatile Vibrating Sample Magnetometer โ ๐ Cited by 9 โ ๐
2012ย
๐ Environmental noise cancellation for high-TC SQUID-based magnetocardiography โ ๐ Cited by 8 โ ๐
2017ย
๐ High Tc SQUID based magnetocardiography system in unshielded environment โ ๐ Cited by 8 โ ๐
2015ย
๐ Coherent population transfer in Rydberg potassium atom via stimulated Ramanadiabatic passage โ ๐ Cited by 8 โ ๐
2005ย
๐ Robust population transfer using finite chirping method โ ๐ Cited by 7 โ ๐
2019ย
๐ Population engineering of cesium fine structure using chirped Gaussian laser pulse โ ๐ Cited by 7 โ ๐
2019