Assoc Prof Dr Karim Abbasian | Major Depressive Disorder | Best Researcher Award

Assoc Prof Dr Karim Abbasian | Major Depressive Disorder | Best Researcher Award

Associate Prof at University of Tabriz,Iran

Karim Abbasian is an Associate Professor at the Faculty of Electrical & Computer Engineering, University of Tabriz, Iran. With over two decades of experience in academia, Dr. Abbasian specializes in optical integrated circuit design, particularly focusing on electromagnetically induced transparency (EIT) and nanophotonics. He is recognized for his contributions to the field through research, teaching, and various administrative roles.

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Education 🎓

Dr. Abbasian holds a PhD in Optical Integrated Circuit Design from the University of Tabriz (2008), an MSc in Electronic Engineering from Tarbiat Modarres University (1997), and a BSc in Electronic Engineering from Urumieh University (1994).

Experience 🏫

Dr. Abbasian has extensive teaching experience, covering courses such as Magnetic Resonance Imaging (MRI) and NanoBioSensors at the MSc and PhD levels since 2018. He has also served in several administrative capacities, including Dean and Rector at the University of Bonab, where he contributed to institutional management and academic development.

Research Interests 🔍

His research interests encompass a wide array of topics, including all-optical systems, plasmonic devices, nanophotonics, semiconductor nanocrystals, and quantum computing. Dr. Abbasian actively explores the therapeutic applications of electromagnetic fields and nanoparticles, aiming to bridge theoretical research with practical applications.

Awards 🏆

Dr. Abbasian has received multiple accolades for his outstanding work, including being named Distinguished Researcher at the University of Tabriz in 2009, 2011, and 2014, as well as receiving recognition as a Distinguished Teacher in 2010.

Research Contributions

Diverse Research Topics:
Dr. Abbasian’s research spans a wide range of impactful areas, including environmental science, biotechnology, and public health. His innovative work addresses pressing community issues, such as environmental pollutants and vector control.

Geographic Impact:
His research has significant geographical relevance, affecting communities in both India and Nigeria. This highlights his ability to tackle region-specific challenges, showcasing the global applicability of his work.

Collaborative Efforts:
Dr. Abbasian has a proven track record of collaboration, co-authoring numerous papers with researchers from diverse fields. This interdisciplinary approach is vital for achieving meaningful community impact.

Applied Research:
Many of his studies focus on practical applications, such as using plant extracts for mosquito repellent and phytoremediation techniques. These efforts translate scientific research into tangible benefits for community health and environmental sustainability.

Publications 📚: Major Depressive Disorder

Dr. Abbasian has authored numerous research papers and books in the field of photonics and nanotechnology. Notable publications include:

  1. A novel proposal for ultra-high resolution and compact optical displacement sensor based on Electromagnetically Induced Transparency in Ring Resonator (2007) – Progress In Electromagnetics Research
  2. All-optical Tunable Devices and Systems: A Proposal for all-optical Tunable Mirror using Electromagnetically Induced Transparency (Steady State Analysis) (2008) – Progress In Electromagnetics Research
  3. Long wavelength infrared photodetector design based on electromagnetically induced transparency (2008) – Optics Communications
  4. A proposal for a demultiplexer based on plasmonic metal–insulator–metal waveguide-coupled ring resonator operating in near-infrared spectrum (2017) – Optik
  5. Dynamical controllable optical device designed by tunable graphene nanostructures in a PIT structure (2023) – Optik

Conclusion

In summary, Dr. Karim Abbasian’s diverse and impactful research portfolio, his focus on practical solutions to community health and environmental issues, and his collaborative spirit make him a highly deserving candidate for the Research for Community Impact Award. His work exemplifies the ideal intersection of scientific advancement and community benefit, promising to improve lives both locally and globally.