Sana’a University | Yemen
Fatima Mohammed Saeed Thabit is an esteemed Instructor in Physics at Sana’a University, Yemen. With an academic career dedicated to advancing theoretical physics, she has made notable contributions to optics and nano-physics. Fatima’s research and expertise are built on her academic background, which includes a Master’s degree in Theoretical Physics and ongoing PhD studies in the same field.
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Early Academic Pursuits 🎓
Fatima’s journey into the world of physics began with her Bachelor’s degree in Physics with a minor in Mathematics from Sana’a University in 2006. She furthered her education with a Master’s degree in Theoretical Physics in 2016, positioning herself as an emerging expert in the field. Currently, she is pursuing her PhD in Theoretical Physics, exploring the depths of this complex and dynamic domain.
Professional Endeavors 💼
As an instructor at Sana’a University, Fatima plays an integral role in shaping the future of aspiring physicists. Her responsibilities include training students, developing practical skills, and teaching a wide array of physics courses, such as electrical circuit analysis, medical physics, and programming. Fatima’s teaching approach fosters an understanding of both theoretical concepts and hands-on experimentation.
Contributions and Research Focus 🔬
Fatima’s research has focused primarily on optics, particularly on beam propagation, optical trapping, and nano-physics. Some of her most notable work involves the study of optical forces exerted on nanodielectric spheres, as well as the behavior of Laguerre-Gaussian beams and Hermite Gaussian beams. Her work has been published in prestigious journals such as the Journal of the Optical Society of America and Applied Optics.
Impact and Influence 🌍
Fatima’s contributions extend beyond academic publications. she has also served as Secretary-editor for the Journal of Sana’a University for Applied Sciences and Technology, playing a pivotal role in supporting the publication process and furthering the academic community’s growth. Through her work, she continues to inspire fellow researchers and students, particularly women in physics, to pursue excellence in science.
Academic Cites 📚
Fatima’s research has garnered recognition and citations from global scholars. Her studies on optical trapping forces and Gaussian beams have helped advance nano-optics and photonics, and her research papers are frequently referenced in scientific circles, including well-regarded journals like J. Opt. Soc. Am. A, Phys. Scr., and Results in Physics.
Research Skills 🧠
With proficiency in advanced tools such as MATLAB, Mathematica, and LaTeX, Fatima demonstrates an outstanding capability in computational modeling, simulation, and data analysis. Her use of cutting-edge research techniques allows her to probe deeper into the theoretical aspects of optics, nanophysics, and photonics, making significant strides in applied research.
Teaching Experience 👩🏫
Fatima’s diverse teaching experience includes guiding students through complex theoretical and practical courses in physics and programming. She has taught students in courses ranging from electrical circuits to medical physics, all while maintaining a high standard of education and encouraging students to engage with both practical experiments and theoretical discussions. Fatima also prepares and evaluates practical exams that ensure students gain a comprehensive understanding of key scientific concepts.
Legacy and Future Contributions 🌱
Looking forward, Fatima’s future contributions to theoretical physics and optics are bound to leave a lasting legacy. As she advances in her PhD research, her work will likely inspire future breakthroughs in nanotechnology and photonics, while her teaching will continue to shape the next generation of physicists. Fatima’s growing involvement in artificial intelligence and cutting-edge research methods positions her as a prominent figure in the field.
Publications Top Notes
Calculation of the optical forces exerted on a nano-dielectric sphere induced by a pulsed Laguerre–Gaussian beam
- Authors: MA Shukri, FM Thabit
Journal: JOSA A
Year: 2023
Calculation of trapping optical forces induced by a focused continuous Hermite Gaussian beam on a nano-dielectric spherical particle
- Authors: MA Shukri, FM Thabit
Journal: Physica Scripta
Year: 2024
Propagation of fully and partially coherent flat-topped multi-Gaussian beams through axicons
- Authors: FM Thabit, AA AlKelly, MA Shukri
Journal: JOSA A
Year: 2020
Impact of Gaussian Beam Spot Size on Trapping Forces: Continuous versus Pulsed Beams
- Authors: M Shukri, F Thabit
Journal: Sana’a University Journal of Applied Sciences and Technology
Year: 2024
Trapping of low and high refractive index nano-spherical particles by using a highly focused Laguerre–Gaussian beam
- Authors: FM Thabit, MA Shukri
Journal: Applied Optics
Year: 2024