Lecturer, Lahore Leads University, Pakistan.
Dr. Hamna Asad is an emerging researcher in the field of applied mathematics, with a focus on modified gravitational theories, electromagnetic theory, and cosmology. She has contributed significantly to understanding complex phenomena such as gravastars, hyperbolic fluids, and the effects of electromagnetic fields on gravitational systems. With a number of high-impact journal publications and international conference presentations, Dr. Asad is making notable strides in theoretical physics. Her academic journey has been marked by excellence, both as a student and a researcher, positioning her as a promising figure in the mathematical physics community.
Profile:
Education
Dr. Hamna Asad is pursuing her Ph.D. in Mathematics at the University of the Punjab, Pakistan, with a major in applied mathematics. Her doctoral research focuses on gravitational modifications, particularly studying hyperbolic fluids and gravitating systems in the context of modified gravity. She completed her M.Phil. in Mathematics in 2020, also from the University of the Punjab, with an impressive CGPA of 3.94/4.00. Prior to that, she earned a Bachelor’s degree in Mathematics, securing 3rd position in her class with a CGPA of 3.87/4.00.
Professional Experiences
In addition to her research work, Dr. Asad has extensive experience in academia. She has served as a teaching faculty member at Lahore Leads University, FAST NUCES, and the Institute of Business and Information Technology (IBIT) at the University of the Punjab. Her teaching roles have allowed her to impart her knowledge of applied mathematics and theoretical physics to both undergraduate and graduate students. Alongside teaching, she has been actively involved in academic discussions and conferences, delivering talks on gravitational theory and fluid dynamics.
Research skills
Dr. Hamna Asad possesses a robust set of research skills that span both theoretical and computational domains in applied mathematics and physics. Her expertise includes advanced problem-solving techniques in gravitational theories, mathematical modeling of fluid dynamics, and analytical approaches to complex systems in modified gravity. She is proficient in using specialized software such as Mathematica and Maple for symbolic computations, simulations, and modeling, enabling her to test hypotheses and develop solutions for complex mathematical problems. Dr. Asad has a keen ability to critically analyze scientific literature, design rigorous research methodologies, and present her findings in a clear and impactful manner. Her collaborative work with international researchers and contributions to high-impact journals showcase her capability to manage large-scale research projects, from inception to publication. Additionally, she excels in synthesizing theoretical insights with practical implications, particularly in the fields of cosmology and astrophysics.
Award And Recoginition
Dr. Hamna Asad possesses a robust set of research skills that span both theoretical and computational domains in applied mathematics and physics. Her expertise includes advanced problem-solving techniques in gravitational theories, mathematical modeling of fluid dynamics, and analytical approaches to complex systems in modified gravity. She is proficient in using specialized software such as Mathematica and Maple for symbolic computations, simulations, and modeling, enabling her to test hypotheses and develop solutions for complex mathematical problems. Dr. Asad has a keen ability to critically analyze scientific literature, design rigorous research methodologies, and present her findings in a clear and impactful manner. Her collaborative work with international researchers and contributions to high-impact journals showcase her capability to manage large-scale research projects, from inception to publication. Additionally, she excels in synthesizing theoretical insights with practical implications, particularly in the fields of cosmology and astrophysics.
Conclusion
Publication Top Notes
- Gravastars in f (R, T, RμνTμν) gravity
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2020
Citation: Physics of the Dark Universe, 28, 100527 🌌
- Electromagnetic effects on anisotropic expansion-free fluid content
Authors: Z. Yousaf, H. Asad, B. Almutairi, A. Malik
Year: 2023
Citation: Communications in Theoretical Physics, 75 (10), 105202 ⚡
- Hyperbolically symmetric sources in f (R, T) gravity
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2022
Citation: Annals of Physics, 437, 168753 📚
- Hyperbolically symmetric static charged cosmological fluid models
Authors: Z. Yousaf, M.Y. Khlopov, M.Z. Bhatti, H. Asad
Year: 2022
Citation: Monthly Notices of the Royal Astronomical Society, 510 (3), 4100-4109 🌠
- A comprehensive analysis of hyperbolical fluids in modified gravity
Authors: Z. Yousaf, M.Z. Bhatti, M. Khlopov, H. Asad
Year: 2022
Citation: Entropy, 24 (2), 150 🔍
- Study of Anisotropic Fluid Distributed Hyperbolically in f(R,T,Q) Gravity
Authors: H. Asad, Z. Yousaf
Year: 2022
Citation: Universe, 8 (12), 630 🌌
- Electromagnetic effects on cylindrical gravastar-like strings in f(R, T, RσηTση) gravity
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2022
Citation: International Journal of Geometric Methods in Modern Physics, 19 (05), 2250070 ⚛️
- Consequences of electric charge on anisotropic hyperbolically symmetric static spacetime
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2022
Citation: Physica Scripta, 97 (5), 055304 ⚡
- Significance of Charge on the Dynamics of Hyperbolically Distributed Fluids
Authors: Z. Yousaf, G.G.L. Nashed, M.Z. Bhatti, H. Asad
Year: 2022
Citation: Universe, 8 (6), 337 🔋
- Matter–curvature gravity modification and the formation of cylindrical isotropic systems
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2022
Citation: Pramana, 96 (2), 111 📐
- Evolution of non-static fluid for irreversible gravitational radiation in Palatini F (R) gravity
Authors: H. Asad, M. Yousaf, B. Almutairi, L. Zahid, A.S. Khan
Year: 2024
Citation: Physics of the Dark Universe, 101666 🌌
- Analytical models of hyperbolical gravitational sources
Authors: Z. Yousaf, M.Z. Bhatti, H. Asad
Year: 2023
Citation: International Journal of Modern Physics D, 32 (13), 2350089 📊
- Study of Anisotropic Fluid Distributed Hyperbolically in f (R, T, Q) Gravity
Authors: H. Asad, Z. Yousaf
Year: 2022
Citation: Universe, 2022, 8, 630 📄