postdoctoral student | Sharif University | Iran
Forouzan Mirmasoudi is an Iranian theoretical physicist specializing in quantum information, condensed matter physics, and quantum chaos. He has held prominent academic positions, including a postdoctoral position at Sharif University of Technology, where he conducted advanced research on the nonlinear response of quantum systems using the Jordan-Wigner fermionization method. With a robust academic background that includes a Ph.D. in Theoretical Physics from Mohaghegh Ardabili University, his work explores quantum dynamics, entanglement, and information theory in complex systems. He is a faculty member at the University of Mohaghegh Ardabili, contributing both as a teacher and researcher. Mirmasoudi’s work aims to bridge the gap between quantum theory and its practical applications, particularly in quantum information processing and thermodynamics.
Profile
Scopus
Education
Mirmasoudi’s educational journey in physics began with a B.Sc. from Damghan University in 2009, followed by an M.Sc. in Physics from Mohaghegh Ardabili University, where he specialized in particle physics and quantum information. His research during his Master’s program focused on the investigation of symmetry and conservation laws in particle physics. Building upon his foundational knowledge, he pursued a Ph.D. in Theoretical Physics at Mohaghegh Ardabili University, completing his thesis on “Quantum information theory in chaotic dynamical systems and its applications.” His doctoral research explored quantum chaos and the behavior of quantum systems, laying the groundwork for his later work in quantum entanglement and quantum chaos models. He further expanded his academic horizons with a postdoctoral fellowship at Sharif University of Technology, specializing in condensed matter theory, particularly the study of nonlinear responses in quantum systems.
Experience
Mirmasoudi has accumulated significant teaching experience over the years, serving as a faculty member at multiple universities. He has taught basic and advanced physics courses at Mohaghegh Ardabili University, University of Caspian College of Engineering, University of Tehran, and the University of Guilan. In addition to his teaching roles, Mirmasoudi has actively contributed to research, particularly in the areas of quantum dynamics and information theory. His expertise in using computational tools like Fortran, Mathematica, Matlab, and Python complements his theoretical work, especially in many-body systems and exact diagonalization methods. Mirmasoudi has also participated in various research collaborations, including a visiting researcher role at the University of Guilan, where he worked on quantum teleportation and super dense coding models.
Research Interests
Mirmasoudi’s research interests span several areas of quantum physics, including quantum entanglement, quantum chaotic systems, many-body physics, and complex dynamic systems. His work often intersects with quantum information science, focusing on the roles of quantum correlations, such as quantum discord, in the dynamics of quantum systems. He is particularly interested in how quantum information can be manipulated and harnessed in various physical systems, including spin chains, superconductors, and low-dimensional quantum systems. His current research also extends to the investigation of quantum thermodynamics, especially in relation to quantum heat engines and energy transfers, and the role of quantum entanglement in these processes. Mirmasoudi’s projects continue to evolve, reflecting his interest in both theoretical studies and practical applications of quantum mechanics.
Awards
Throughout his academic career, Mirmasoudi has received recognition for his contributions to quantum physics, particularly in the areas of quantum information theory and quantum chaos. His work has been acknowledged through various awards and nominations, reflecting his growing influence in the field. His published papers have received significant attention, and his contributions to understanding quantum systems in both theoretical and applied contexts have positioned him as a notable figure in the physics community.
Publications
Mirmasoudi’s research has resulted in several impactful publications, which have contributed to the understanding of quantum dynamics, information, and entanglement. His most notable works include:
- Mirmasoudi, F., & Ahadpour, S. (2018). Dynamics of super quantum discord and optimal dense coding in quantum channels, Journal of Physics A: Mathematical and Theoretical.
- Mirmasoudi, F., & Ahadpour, S. (2019). Application quantum renormalization group to optimal dense coding in transverse Ising model, Physica A: Statistical Mechanics and its Applications.
- Mirmasoudi, F., & Ahadpour, S. (2017). Dynamics super quantum discord and quantum discord teleportation in the Jaynes–Cummings model, Journal of Modern Optics.
- Mirmasoudi, F., Ahadpour, S., Vahedi, J., & Mahdavifar, S. (2019). The Loschmidt-echo dynamics in a quantum chaos model, Physica Scripta.
- Mirzaei, S., Najarbashi, G., Fasihi, M. A., & Mirmasoudi, F. (2018). Entanglement of multipartite fermionic coherent states for pseudo-Hermitian Hamiltonians, Theoretical and Mathematical Physics.
- Mirmasoudi, F., & Ahadpour, S. (2018). Thermal Quantum Discord and Super Quantum Discord Teleportation via Two-Qubit Spin Squeezing Model, Theoretical and Mathematical Physics.
- Ahadpour, S., Nemati, A., Mirmasoudi, F., & Hematpour, N. (2018). Projective Synchronization of Piecewise Nonlinear Chaotic Maps, Theoretical and Mathematical Physics.
These papers, published in high-impact journals, are widely cited and have contributed to significant advancements in the fields of quantum information, thermodynamics, and chaos theory. His research has had a profound influence on understanding quantum systems, with many of his works cited in subsequent studies, furthering the knowledge in these areas.
Conclusion
Forouzan Mirmasoudi’s academic and research career highlights a commitment to advancing the understanding of quantum physics, particularly in the realms of information theory, chaos, and condensed matter systems. His extensive teaching experience, coupled with his active participation in cutting-edge research, has positioned him as a prominent researcher in his field. Through his work, Mirmasoudi continues to explore the intricate dynamics of quantum systems, contributing valuable insights into the role of quantum information in both theoretical and applied contexts. As he progresses in his research, Mirmasoudi remains dedicated to furthering the field of quantum physics and inspiring the next generation of researchers.