Al-Emam Omar | Experimental Physics | Best Researcher Award

Assoc Prof Dr. Al-Emam Omar | Experimental Physics | Best Researcher Award

Assoc Prof Dr. Al-Emam Omar, Mansoura university, Egypt

Based on the provided details, Associate Professor Dr. Al-Emam Z. Omar would be a strong candidate for the Best Researcher Award. Here’s a summary of why he is suitable

Publication profile

Academic and Professional Background

  • Dr. Al-Emam Z. Omar is an Associate Professor in the Physics Department at Mansoura University, Egypt. His academic journey spans from being a demonstrator to becoming an associate professor, indicating a steady and impactful career progression in experimental physics.

Research Expertise

  • Specialization: Dr. Omar specializes in optical interferometric techniques, digital holography, and opto-mechanical investigations. His work extends to advanced topics like machine learning applications in image processing, which demonstrates a cross-disciplinary approach.
  • Notable Contributions: His research includes 24 publications with significant citations (242 in Scopus and 264 in Google Scholar) and an h-index of 11, reflecting the impact and relevance of his research in the field of physics.

Awards and Recognition

  • Dr. Omar received the Best Doctoral Thesis Award from Mansoura University in 2020, recognizing the quality and impact of his research work.
  • He is listed among the world’s top 2% of scientists according to Stanford University in 2023, highlighting his global recognition and influence in the scientific community.
  • He has been acknowledged as a reviewer for multiple reputable journals, which showcases his expertise and credibility in the scientific community.

Research Projects

  • Dr. Omar has contributed significantly to upgrading research facilities, such as the optics laboratory at Mansoura University, for advanced characterization of fibers and materials, funded by the Science and Technology Development Fund (STDF).

Publication Top Notes

  • πŸ“˜ A novel hybrid model based on integrating RGB and YCrCb color spaces for demodulating the phase map of fibers using a color phase-shifting profilometry technique (2024) – 1 citation
  • πŸ”¬ The influence of degradation in different pH buffer solutions on the optical and durability properties of Monocryl suture: (an in vitro study) (2024) – 1 citation
  • 🧡 A refined method for investigating the morphological and optical properties of a biodegradable monocryl suture (2023) – 1 citation
  • πŸ“š Optical microscope: interferometric and non-interferometric optical microscopy techniques (Book Chapter, 2023) – 0 citations
  • πŸ§ͺ Phase estimation for investigating the optical and mechanical properties of Monocryl suture for soft tissue approximation and ligation (2022) – 4 citations
  • 🧫 Interferometric accurate investigation of opto-thermo-mechanical features with help of artificial intelligence for antimicrobial polyamide-6 fibers grafted by quaternary ammonium salt with nano zinc oxide (2022) – 3 citations
  • πŸ€– Adaptive investigation of the optical properties of polymer fibers from mixing noisy phase-shifting microinterferograms using deep learning algorithms (2022) – 8 citations
  • 🌑️ Investigation of the opto-thermo-mechanical properties of antimicrobial PET/TiO2 fiber using the transport of intensity equation technique (2022) – 2 citations
  • πŸŒ€ Adaptive demodulation for phase information and opto-mechanical properties of fibers from blurred digital holography pattern (2022) – 5 citations
  • πŸ“ A suggested optical setup for duplicated-image transport intensity equation technique to accurate determine the optical anisotropy in fibers (2021) – 2 citations

Conclusion

Dr. Al-Emam Z. Omar’s extensive research in experimental physics, combined with his recognition by international and national awards, positions him as a suitable candidate for the Best Researcher Award. His ongoing projects and consistent contributions to scientific literature underline his dedication to advancing knowledge and technology in his field.

 

Dario Bercioux | Condensed Matter Physics | Best Researcher Award

Assist Prof Dr. Dario Bercioux | Condensed Matter Physics | Best Researcher Award

Assist Prof Dr. Dario Bercioux, Donostia International Physics Center, Spain

Dr. Dario Bercioux is an accomplished physicist specializing in theoretical condensed matter physics and nanoelectronics. Holding a Ph.D. from the University of Naples, he has held various prestigious research positions across Europe, including at the Donostia International Physics Center in Spain and the Dahlem Center for Complex Quantum Systems in Germany. His work focuses on mesoscopic systems and quantum phenomena in nanostructures. Dr. Bercioux is also actively involved in academic leadership and has organized several international physics schools. He contributes significantly to the field through his research, teaching, and mentoring activities. πŸŒπŸ”¬

 

Publication profile

Education

Dr. Dario Bercioux is currently a Tenured Research Associate at the Donostia International Physics Center in Spain since October 2019, where he leads the Mesoscopic Electrons and Photons System (MEPS) group. He began his career with a Ph.D. in Physics from the University of Naples in 2005, focusing on spin-dependent transport in nanostructures. His extensive postdoctoral research includes positions at prestigious institutions such as the University of Freiburg and the University of Regensburg in Germany. Dr. Bercioux has contributed significantly to theoretical condensed matter physics and nanoelectronics, evident from his tenure track roles and leadership in international research projects.

Teaching

Dr. Bercioux has organized and lectured at numerous international physics schools, emphasizing nanophysics and quantum mechanics. He has been involved in teaching advanced topics like nanoelectronics and quantum dynamics at universities in Germany and Italy. His research and teaching activities highlight his commitment to advancing knowledge in theoretical physics, particularly in understanding quantum phenomena in nanostructured materials. Dr. Bercioux continues to mentor and educate future physicists, fostering a deeper understanding of complex quantum systems. πŸŒŒπŸ“š

Research Focus

Dr. Dario Bercioux’s research primarily focuses on theoretical condensed matter physics, with a specialization in quantum transport phenomena and topological phases in various materials. His work spans topics such as the Rashba effect in spin-orbit materials, robust zero-energy modes in topological insulators, and engineering topological properties in photonic crystals. Through extensive publications and collaborations, he explores the theoretical underpinnings of quantum networks, electron polarization in topological insulators, and the behavior of Dirac fermions in optical lattices. Dr. Bercioux’s contributions significantly advance our understanding of complex quantum systems and their potential applications in future technologies. πŸŒŒπŸ”¬