Research Excellence Award

Mohammed Al Bahri
Affiliation	A’Sharqiyah University
Country	Oman
Scopus ID	57188624635
Documents	24
Citations	259
h-index	8
Subject Area	Nanomagnetism
Event	Global Nano Awards
ORCID	0000-0001-6051-5143

Mohammed Al Bahri is an associate professor of Physics at A’Sharqiyah University in Oman with research specialization in nanomagnetism, magnetic nanowires, and magnetic domain wall engineering. His academic contributions focus on spin-wave dynamics, magnetic nanostructures, and advanced materials for spintronic applications. He completed his doctoral studies at Sultan Qaboos University in 2018 and has contributed extensively to the development of nanoscience research within Oman and the wider international scientific community.[1]

Abstract

This academic profile summarizes the research achievements and scholarly activities of Mohammed Al Bahri in the field of nanomagnetism and magnetic nanostructures. His work primarily addresses magnetic spin-wave dynamics, domain wall engineering, and nanostructure optimization for spintronic and magnonic technologies. Through peer-reviewed publications and institutional leadership, he has contributed to the advancement of applied nanoscience and magnetic materials research.[2]

Keywords

Nanomagnetism, Magnetic Nanowires, Spintronics, Magnetic Domain Walls, Magnonic Devices, Nanostructures, Spin-Wave Dynamics, Advanced Magnetic Materials.

Introduction

Nanomagnetism has become an increasingly important area within modern condensed matter physics due to its applications in memory storage, magnetic sensors, and next-generation computational devices. Mohammed Al Bahri has focused his research on magnetic nanostructures and the physical behavior of spin-wave dynamics under varying geometrical and stress-related conditions. His studies contribute to the broader understanding of nanoscale magnetic phenomena and their integration into emerging technological systems.[3]

Research Profile

Mohammed Al Bahri has served in academic and administrative positions at A’Sharqiyah University since 2018. Prior to joining the university sector, he worked for approximately two decades within the Ministry of Education in Oman, focusing on educational monitoring and evaluation. His academic profile includes research leadership, committee administration, and interdisciplinary collaboration in nanoscience and applied physics.[1]

Research Contributions

• Investigated stress-induced spin-wave dynamics in magnetic antivortices and nanodots.
• Developed studies on domain wall engineering for multi-state memory applications.
• Contributed to research on graphene-assisted ferromagnetic cobalt nanoparticles.
• Explored thermal switching and magnetic anisotropy in spintronic memory systems.

Publications

• Angular dependence of stress-induced spin-wave dynamics in antivortices stabilized in square FeGa nanodots.
• Controlling the spin-wave modes in planar nanostructure with wire-ring morphology.
• Engineering of magnetic domain walls via antidot geometry for advanced multi-state memory applications.

Research Impact

The research activities of Mohammed Al Bahri demonstrate measurable scholarly impact through indexed publications, citation performance, and international conference recognition. His work has contributed to the advancement of magnetic nanodevice modeling and spintronic applications relevant to energy-efficient computing systems. In addition to research output, his leadership in academic committees reflects institutional engagement and scientific mentorship.[4]

Award Suitability

Mohammed Al Bahri’s profile aligns with the objectives of the Research Excellence Award due to his sustained contributions to nanomagnetism research, publication record, and recognition through academic awards. His achievements include the Best Presenter Award at the International Conference on Magnetism and Magnetic Materials 2020 and institutional recognition for research excellence during the 2022–2023 academic year. These accomplishments support his standing as an active contributor to applied nanoscience research in the Middle East and internationally.[5]

Conclusion

The academic and research profile of Mohammed Al Bahri reflects consistent engagement in nanomagnetic materials research and applied spintronics. His scientific contributions, institutional service, and international collaborations demonstrate a balanced scholarly career that supports continued advancements in nanoscale magnetic technologies and interdisciplinary physics research.[6]

External Links

• ORCID Profile
• Scopus Author Profile
• Google Scholar Profile
• Featured DOI Publication
• Award Website

References

1. Elsevier. (n.d.). Scopus author details: Mohammed Al Bahri, Author ID 57188624635. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=57188624635
2. ORCID. (n.d.). Mohammed Al Bahri researcher profile.
   https://orcid.org/0000-0001-6051-5143
3. Journal of Magnetism and Magnetic Materials. (2026). Angular dependence of stress-induced spin-wave dynamics in antivortices stabilized in square FeGa nanodots.
   https://doi.org/10.1016/j.jmmm.2026.174091
4. Physica Scripta. (2026). Controlling the spin-wave modes in planar nanostructure with wire-ring morphology.
5. Scientific Reports. (2026). Engineering of magnetic domain walls via antidot geometry for advanced multi-state memory applications.
   https://doi.org/10.1038/s41598-025-34632-w
6. Nanomaterials. (2025). Improving Domain Wall Thermal Switching and Dynamics in Perpendicular Magnetic Anisotropy Nanowire for Reliable Spintronic Memory.
   https://doi.org/10.3390/nano15201552