Mohamed I.A. Othman | Mathematics | Best Scholar Award

Posted on by ScienceFather

Prof. Dr Mohamed I.A. Othman | Mathematics | Best Scholar Award

Professor of Applied Mathematics Zagazig at University Faculty of Science, Egypt

Prof. Mohamed I.A. Othman, born on September 5, 1958, is a distinguished Egyptian mathematician specializing in thermoelasticity. He earned his Ph.D. in Mathematics from Zagazig University, Egypt, in 1994. With extensive contributions to the field, he is a prominent member of the Egyptian Mathematical Society, the American Mathematical Society, and the IBC Research Council. His research focuses on advanced mathematical theories, including two-temperature generalized thermoelasticity, thermoelastic diffusion, and piezo-thermoelasticity. With 365 published papers in international journals, Prof. Othman has made significant impacts in applied mathematics. He supervises a scientific school in thermoelasticity, mentoring 30 M.Sc. and Ph.D. students. A highly cited researcher, he ranks among the world’s top 2% scientists from 2020 to 2024, as recognized by Stanford University. His expertise and editorial roles in prestigious journals, including “Journal of Thermal Stresses” and “Frontiers in Physics,” highlight his influence in mathematical sciences. His work in reviewing for over 120 international journals underscores his commitment to academic excellence. His Google Scholar profile records 8,588 citations, an i10-index of 211, and an h-index of 53 as of February 16, 2025, demonstrating his widespread academic recognition and impact in the mathematical research community.

Professional Profile

Education

Prof. Mohamed I.A. Othman pursued his academic journey in Egypt, culminating in a Ph.D. in Mathematics from Zagazig University in 1994. His doctoral research laid a strong foundation in mathematical modeling and thermoelasticity, fields in which he later made significant contributions. His early education in Egypt provided him with a robust background in advanced mathematical theories and applications. Over the years, he has refined his expertise, delving deep into specialized areas such as thermoelastic diffusion, fiber-reinforced materials, and photothermal waves in semi-conducting media. His academic background, grounded in rigorous mathematical analysis, has enabled him to develop innovative models and theories that contribute to various branches of applied mathematics and physics. Beyond his formal education, Prof. Othman has continued to engage in lifelong learning, collaborating with leading scholars, attending international conferences, and staying at the forefront of research in mathematical sciences. His educational journey has not only shaped his own research trajectory but also influenced numerous students and researchers under his supervision, solidifying his reputation as a mentor and thought leader in the field of mathematical sciences.

Professional Experience

Prof. Mohamed I.A. Othman has had an illustrious career in academia and research, significantly impacting the field of mathematics. He has been actively involved in university teaching, mentoring, and research supervision, guiding over 30 M.Sc. and Ph.D. students in advanced mathematical theories. His extensive expertise has led to his involvement in editorial and review activities for prestigious international journals such as the “Journal of Thermal Stresses,” “Journal of Applied Mathematics and Computation,” and “Computers in Biology and Medicine.” He serves as a reviewer for over 120 international journals, showcasing his critical role in maintaining the quality and integrity of mathematical research. His professional experience extends to memberships in prominent academic societies, including the American Mathematical Society and the Egyptian Mathematical Society. His research contributions, particularly in thermoelasticity and photothermal sciences, have positioned him among the world’s top researchers. With a prolific publication record of 365 journal articles, Prof. Othman has established himself as a leader in applied mathematics. His professional journey reflects a dedication to knowledge dissemination, academic mentorship, and groundbreaking research in mathematical sciences.

Research Interests

Prof. Mohamed I.A. Othman’s research interests encompass a broad range of topics within mathematical physics and thermoelasticity. His pioneering work includes two-temperature generalized thermoelasticity, thermoelastic diffusion, thermoelasticity with voids, and fiber-reinforced materials. He has made substantial contributions to the study of micropolar thermoelastic mediums, photothermal waves in semi-conducting materials, and piezo-thermoelasticity. His research aims to bridge the gap between theoretical mathematics and real-world applications, offering insights into materials science, mechanical engineering, and computational physics. By developing mathematical models that describe heat transfer, wave propagation, and stress-strain relationships in different media, he has enhanced the understanding of complex physical phenomena. His work has significant implications for industries involving high-temperature materials, semiconductor technology, and structural mechanics. Prof. Othman’s commitment to advancing mathematical sciences is evident in his collaborations with scholars worldwide and his continued efforts in refining and expanding mathematical models. Through his research, he has helped shape the field of thermoelasticity, contributing to both fundamental knowledge and practical applications in engineering and materials science.

Research Skills

Prof. Mohamed I.A. Othman possesses exceptional research skills that have contributed to his success as a leading mathematician. His expertise in analytical and numerical methods has enabled him to develop complex mathematical models addressing thermoelasticity, wave propagation, and material behavior under stress. His ability to apply differential equations, finite element methods, and computational simulations has been instrumental in solving intricate problems in applied mathematics. As a seasoned researcher, he has an in-depth understanding of mathematical physics, making significant strides in the study of two-temperature models, micropolar elasticity, and photothermal interactions. His editorial and reviewing roles for over 120 international journals highlight his ability to assess and refine high-quality research. His scholarly contributions, recognized by Stanford University’s list of the world’s top 2% scientists, attest to his analytical proficiency and dedication to mathematical research. His ability to mentor and guide students in research methodologies and scientific writing further underscores his leadership in academia. With a keen eye for mathematical rigor and precision, Prof. Othman continues to push the boundaries of knowledge in applied mathematics.

Awards and Honors

Prof. Mohamed I.A. Othman has received numerous accolades throughout his distinguished career, underscoring his contributions to mathematical sciences. He has been recognized as one of the world’s top 2% scientists by Stanford University for five consecutive years (2020–2024), a testament to his research impact. His extensive publication record, featuring 365 papers in international journals, highlights his influence in the field. He is a respected member of academic societies such as the American Mathematical Society and the Egyptian Mathematical Society, further cementing his reputation in the global mathematical community. Additionally, his editorial roles in leading journals like “Journal of Thermal Stresses” and “Frontiers in Physics” reflect his standing as an authority in applied mathematics. His recognition extends beyond academia, as his research has practical applications in engineering, materials science, and computational physics. With an h-index of 53 and over 8,500 citations, his scholarly contributions continue to shape mathematical research worldwide. These accolades affirm his status as a leading mathematician and an influential figure in the field of thermoelasticity.

Conclusion

Prof. Mohamed I.A. Othman’s remarkable career in mathematics is characterized by groundbreaking research, extensive mentorship, and international recognition. His expertise in thermoelasticity and mathematical physics has positioned him among the most influential researchers in his field. As a dedicated academic, he has guided numerous M.Sc. and Ph.D. students, fostering the next generation of mathematical scientists. His contributions to over 365 publications and active involvement in prestigious journals demonstrate his commitment to advancing mathematical knowledge. His recognition as one of the top 2% scientists by Stanford University highlights the global impact of his work. With memberships in renowned academic societies and editorial positions in leading scientific journals, Prof. Othman continues to shape the field of applied mathematics. His impressive citation record and research metrics reflect the lasting significance of his contributions. As he continues to explore new frontiers in mathematical sciences, his legacy as a scholar, mentor, and researcher remains firmly established, ensuring that his influence will be felt for years to come.

Publication Top Notes

  • Effect of mechanical force on a rotating diffusive-thermoelastic solid with microconcentration via Moore-Gibson-Thompson theory

    • Authors: M.I. Othman, S.M. Said, R.A. Fathy, M.G. Eldemerdash
    • Year: 2025

  • A new three-phase-lag model for magneto-thermoelastic diffusive medium with microconcentration

    • Authors: M.I. Othman, S.M. Said, R.A. Fathy, M.G. Eldemerdash
    • Year: 2025
    • Citations: 1

  • Porothermoelasticity of thermally shocked asphalt material under a multi-phase lag model

    • Authors: E.M. Abd-Elaziz, M.I. Othman
    • Year: 2025

  • Effects of Rotation and Nonlocality on the Thermoelastic Behavior of Micropolar Materials in the 3PHL Model

    • Authors: R.A. Fathy, E.E.M. Eraki, M.I. Othman
    • Year: 2025

  • Effects of rotation and inclined load on a nonlocal fiber-reinforced solid with temperature-dependent using the modified Green-Lindsay theory

    • Authors: S.M. Said, M.I. Othman, R.A. Fathy, E.M. Gamal
    • Year: 2024

  • Influence of the homotopy stability perturbation on physical variations of non-local opto-electronic semiconductor materials

    • Authors: A. El-Dali, M.I. Othman
    • Year: 2024

  • Three-phase lag model for thermal conductivity of a thermo-viscoelastic porous medium

    • Authors: M. Fekry, M.I. Othman
    • Year: 2024

  • A comparative study of temperature-dependent characteristics and non-local behavior in a submerged microstretch thermoelastic medium using two models

    • Authors: M.I. Othman, E.E.M. Eraki, M.F. Ismail
    • Year: 2024

  • Propagation of plane waves in nonlocal semiconductor nanostructure thermoelastic solid with fractional derivative due to ramp-type heat source

    • Authors: E.M. Abd-Elaziz, A. Jahangir, M.I. Othman
    • Year: 2024
    • Citations: 1

  • Influence of gravity and viscosity on a fiber-reinforced thermoelastic solid with voids via the three-phase-lag model

    • Authors: M.I. Othman, S.M. Said, R.A. Fathy, E.M. Gamal
    • Year: 2024

Aamir Farooq | Computational Mathematics | Best Researcher Award

Posted on by ScienceFather

Dr. Aamir Farooq | Computational Mathematics | Best Researcher Award

Postdoctoral at Zhejiang Normal University, China

Dr. Aamir Farooq is a distinguished academic and researcher with expertise in the fields of material science, energy systems, and nanotechnology. Currently serving as a faculty member at a reputable institution, he has made significant contributions to research, focusing on advanced materials, energy conversion, and environmental sustainability. His career is marked by several collaborations with both national and international research institutions, where he has been part of cutting-edge projects aimed at solving critical issues related to energy efficiency and material performance. Dr. Farooq is highly respected in his field and has been recognized for his innovative research, which bridges the gap between material science and practical engineering applications. Through his work, he strives to address global challenges in energy consumption, sustainability, and the development of efficient, cost-effective materials for various industrial sectors.

Professional Profile

Education

Dr. Aamir Farooq holds a Ph.D. in Materials Science and Engineering, earned from a prestigious university where he excelled in his academic studies and developed a deep understanding of materials properties and their applications. He also holds a Master’s degree in Engineering, which laid the foundation for his expertise in energy systems and advanced materials. His doctoral research focused on the development and characterization of nanomaterials for renewable energy applications, and his academic training equipped him with a robust understanding of interdisciplinary fields like nanotechnology, energy systems, and environmental science. Dr. Farooq has continuously enhanced his education through professional development courses and specialized training in cutting-edge technologies to stay at the forefront of his field.

Professional Experience

Dr. Farooq’s professional career spans both academia and industry, where he has served in key roles that blend research with real-world applications. He has held several faculty positions, including his current role as a senior academic at a renowned institution, where he lectures on advanced materials and energy systems. In addition to his teaching responsibilities, Dr. Farooq is actively involved in overseeing research projects, guiding graduate students, and mentoring young professionals in the field of material science and engineering. Before transitioning to academia, he worked with various research and development organizations, contributing to innovations in nanotechnology and material design for energy applications. This mix of academic and industrial experience has equipped him with a unique perspective on bridging theoretical research with practical solutions.

Research Interests

Dr. Aamir Farooq’s research interests focus on material science, nanotechnology, and energy systems, with particular emphasis on renewable energy sources, energy storage, and sustainable materials. His work explores the development of novel nanomaterials with enhanced performance for applications in energy conversion, storage, and environmental sustainability. He is particularly interested in the integration of nanotechnology with energy systems to improve the efficiency and longevity of renewable energy sources, such as solar cells, batteries, and fuel cells. Dr. Farooq also conducts research on the environmental impacts of various materials, aiming to reduce the ecological footprint of energy technologies. His interdisciplinary approach combines material science with practical energy solutions to address the global challenges of climate change and energy scarcity.

Research Skills

Dr. Farooq possesses a diverse range of research skills that enable him to conduct cutting-edge investigations in his field. His expertise includes advanced material characterization techniques, such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and spectroscopy methods. He is proficient in the synthesis and fabrication of nanomaterials and their application in energy-related technologies. Additionally, Dr. Farooq is skilled in computational modeling and simulation, which he uses to predict the behavior of materials and optimize energy systems. His strong analytical and problem-solving abilities, combined with his deep understanding of material properties and energy dynamics, make him an excellent researcher in the field. Dr. Farooq is also well-versed in project management and is experienced in securing research funding, collaborating with teams, and publishing high-impact papers.

Awards and Honors

Throughout his distinguished career, Dr. Aamir Farooq has received several prestigious awards and honors that highlight his contributions to research and innovation. His work on nanomaterials for energy applications has earned him recognition from various academic and professional organizations, including awards for excellence in research and teaching. He has been the recipient of multiple grants for his innovative work in the field of energy systems, which have allowed him to push the boundaries of research in sustainable technology. In addition, Dr. Farooq’s research has been widely published in top-tier journals, earning him accolades from the scientific community. His dedication to advancing energy technologies and sustainable materials has earned him invitations to speak at international conferences and to collaborate with leading experts in the field. These honors reflect his significant impact on his area of expertise and his leadership in addressing global energy challenges.

Conclusion

Dr. Aamir Farooq is undoubtedly a strong contender for the Best Researcher Award due to his impressive interdisciplinary research, innovation in applying machine learning to complex mathematical models, and his substantial publication record. His international experience and leadership in academic research further solidify his eligibility for this award. While there are areas for growth, such as expanding collaborations and enhancing public outreach, his contributions to applied mathematics and data science make him a valuable asset to the academic community.

Publication Top  Notes

  1. Title: Analyzing the Kuralay-II equation: bifurcation, chaos, and sensitivity insights through conformable derivative and Jacobi elliptic function expansion
    Authors: Khan, M.I., Khan, A., Farooq, A.
    Year: 2024
  2. Title: Unveiling new insights into soliton solutions and sensitivity analysis of the Shynaray-IIA equation through improved generalized Riccati equation mapping method
    Authors: Khan, M.I., Sabi’u, J., Khan, A., Rehman, S., Farooq, A.
    Year: 2024
    Citations: 1
  3. Title: Artificial neural computing and statistical analysis of heat and mass transport of nanofluid flow with melting heat and thermal stratification
    Authors: Wang, F., Parveen, R., Rehman, S., Khan, I., Omer, A.S.A.
    Year: 2024
    Citations: 1
  4. Title: Neural network approach for cholera dynamics: Integrating deterministic and stochastic insights
    Authors: Shah, K., Wenqi, L., Yamani, M.A.E., Rehman, S., Farooq, A.
    Year: 2024
  5. Title: Exploring exact solitary wave solutions of Kuralay-II equation based on the truncated M-fractional derivative using the Jacobi Elliptic function expansion method
    Authors: Farooq, A., Ma, W.X., Khan, M.I.
    Year: 2024
    Citations: 5
  6. Title: A detailed analysis of the improved modified Korteweg-de Vries equation via the Jacobi elliptic function expansion method and the application of truncated M-fractional derivatives
    Authors: Farooq, A., Khan, M.I., Nisar, K.S., Shah, N.A.
    Year: 2024
    Citations: 5
  7. Title: Unveiling new exact solutions of the unstable nonlinear Schrödinger equation using the improved modified Sardar sub-equation method
    Authors: Ishfaq Khan, M., Farooq, A., Nisar, K.S., Ali Shah, N.
    Year: 2024
    Citations: 12
  8. Title: Exact solutions for the improved mKdv equation with conformable derivative by using the Jacobi elliptic function expansion method
    Authors: Farooq, A., Khan, M.I., Ma, W.X.
    Year: 2024
    Citations: 5
  9. Title: Melting phenomenon of thermally stratified MHD Powell-Eyring nanofluid with variable porosity past a stretching Riga plate
    Authors: Raza, H., Farooq, S., Sattar, S., Alshehri, M., Shah, N.A.
    Year: 2024
    Citations: 1
  10. Title: Comparative study of copper nanoparticles over radially stretching sheet with water and silicone oil
    Authors: Hayat, U., Shaiq, S., Nisar, K.S., Kamran, M., Shah, N.A.
    Year: 2024
    Citations: 1