Kamran Qadir Abbasi | Gravitational Waves | Best Researcher Award

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Dr. Kamran Qadir Abbasi | Gravitational Waves | Best Researcher Award

Senior Lecturer from National University of Modern Languages, Pakistan

Dr. Kamran Qadir Abbasi is a dedicated researcher and academic in the field of theoretical physics and mathematics, specializing in general relativity and gravitational wave phenomena. He is currently a lecturer in the Department of Mathematics at the National University of Modern Languages (NUML), Islamabad. With a Ph.D. in Mathematics from the National University of Sciences and Technology (NUST), he has cultivated a deep research profile focused on the mathematical structures of spacetimes and gravitational wave interactions. Dr. Abbasi has made significant contributions through numerous peer-reviewed publications in international journals, exploring gravitational wave spacetimes, black hole accretion, and energy extraction mechanisms. In addition to research, he plays an active role in academic leadership and mentorship, serving in various administrative and advisory capacities at NUML. He has presented his work at renowned scientific conferences and is a reviewer for high-impact journals. Dr. Abbasi is also recognized for supervising high-quality undergraduate research and fostering a vibrant academic environment. His academic rigor, combined with practical teaching and leadership, positions him as a strong contender for prestigious research accolades. With continued interdisciplinary collaborations and outreach, he is poised to make a lasting contribution to the global scientific community.

Professional Profile

Education

Dr. Kamran Qadir Abbasi holds a strong academic foundation in applied and theoretical mathematics. He completed his Ph.D. in Mathematics from the National University of Sciences and Technology (NUST), Islamabad, in 2024. His doctoral research, under the supervision of Professors Ibrar Hussain and Asghar Qadir, focused on the scattering of gravitational waves and their energy implications. Prior to this, he earned an M.Phil. in Mathematics (2016) from NUST, where he explored the topic of colliding plane impulsive gravitational waves. His earlier education includes an M.Sc. in Applied Mathematics from Quaid-e-Azam University (2012), where he specialized in subjects like Special Relativity, Analysis, and Differential Equations. He began his academic journey with a B.Sc. from the University of the Punjab, Lahore, in 2009, focusing on Mathematical Methods, Classical Mechanics, and Statistics. Throughout his academic training, Dr. Abbasi displayed a consistent interest in complex mathematical problems involving spacetime geometry and gravitational phenomena. His educational pathway has provided him with both theoretical knowledge and practical skills in mathematical physics, shaping his ongoing research trajectory. These achievements also reflect his commitment to academic excellence and his capability to work on complex, abstract scientific problems with rigor and depth.

Professional Experience

Dr. Abbasi’s professional career reflects a combination of academic teaching, research, and leadership in mathematics. Since 2019, he has served as a Lecturer at the Department of Mathematics, NUML, Islamabad, where he has taught advanced mathematics courses at graduate level, including Special Relativity, Tensor Analysis, and Differential Geometry. He also served as adjunct faculty at NUST’s College of Electrical and Mechanical Engineering between 2019 and 2020, teaching Calculus and Analytical Geometry. His academic journey began as a Teaching Assistant at NUST’s School of Natural Sciences in 2013–2014, where he provided student support and contributed to projects involving LaTeX and Mathematica. Beyond teaching, Dr. Abbasi has taken on multiple administrative roles such as Programme Coordinator, Seminar In-charge, and Focal Person of the NUML Mathematics Society. He has organized academic events and supervised numerous undergraduate theses in mathematical physics. His leadership extends to coordinating student discipline and assisting departmental heads in strategic academic planning. His contributions as keynote speaker and conference presenter further emphasize his growing influence in the field. These multifaceted roles demonstrate Dr. Abbasi’s versatility as both a committed educator and an emerging thought leader in gravitational research and academic development.

Research Interest

Dr. Abbasi’s research interests are grounded in the mathematical and physical frameworks of general relativity, with a particular emphasis on gravitational wave theory. His work revolves around understanding the structure and implications of gravitational wave spacetimes, including the complex dynamics of colliding plane gravitational waves. He investigates how gravitational waves interact, the nature of singularities formed during such collisions, and the energy mechanisms associated with them. A significant portion of his research also focuses on black holes—specifically, the study of accretion processes and how energy and angular momentum behave in these extreme environments. His investigations further extend into mechanisms of gravitational wave generation, such as those produced by black hole mergers. Dr. Abbasi’s exploration of these phenomena often involves the application of advanced mathematical tools, including Noether symmetries and exact solutions of Einstein’s field equations. His deep engagement with topics at the interface of mathematics and physics reflects a scholarly commitment to uncovering the fundamental laws of nature through theoretical models. This domain of research is not only intellectually challenging but also pivotal in the context of recent observational breakthroughs in gravitational wave astronomy, making his work both timely and scientifically relevant.

Research Skills

Dr. Kamran Qadir Abbasi possesses a versatile set of research skills that enable him to tackle complex problems in mathematical physics. He is proficient in the application of advanced mathematical techniques, including differential geometry, tensor analysis, and symmetry approaches, particularly Noether symmetries, for solving Einstein’s field equations. His computational skills are robust, with hands-on experience in scientific software such as Mathematica, MATLAB, and Python—essential tools for modeling gravitational phenomena and visualizing complex spacetime geometries. Dr. Abbasi has also mastered LaTeX for typesetting scientific documents, ensuring high-quality presentation of mathematical research. His ability to interpret physical results within the framework of general relativity is supported by rigorous analytical methods, especially in the study of wave collisions, accretion processes, and rotating black hole dynamics. Additionally, his experience in supervising undergraduate research projects demonstrates his mentoring capabilities and ability to communicate complex ideas clearly. As a reviewer for international journals, he has developed critical evaluation skills and maintains up-to-date knowledge of current research trends. These cumulative research competencies allow Dr. Abbasi to contribute original insights to the fields of gravitational wave theory and mathematical relativity with academic precision and scientific depth.

Awards and Honors

Dr. Abbasi’s academic accomplishments have been recognized through multiple awards and scholarships. In 2023, he was honored with the Best Final Year Project Supervisor Award at NUML, acknowledging his mentorship and guidance in student-led research. He has also received prestigious national scholarships including the HEC Doctoral Scholarship (2019–2022) from the Higher Education Commission of Pakistan, supporting his Ph.D. research in general relativity. Earlier, he was awarded the Prime Minister’s Scholarship (2014–2015) for students from underdeveloped regions, a recognition of his academic promise and dedication. These honors underscore both his individual academic merit and his contributions to student learning and research development. His selection as a keynote speaker at major academic forums, such as the Institute of Space Technology in 2024, further validates his standing in the scholarly community. Participation in high-profile international events like the Marcel Grossmann Meeting and the Summer School on Cosmology also reflects recognition of his expertise by global peers. Collectively, these accolades highlight Dr. Abbasi’s rising influence in the field of gravitational physics and demonstrate institutional and scholarly acknowledgment of his work and potential.

Conclusion

Dr. Kamran Qadir Abbasi exemplifies the profile of an emerging leader in the field of mathematical relativity and gravitational wave research. His extensive academic background, combined with original research contributions, make him a strong candidate for prestigious awards such as the Best Researcher Award. He consistently publishes in reputed international journals, collaborates with leading scientists, and engages actively in academic conferences. His supervision of undergraduate theses and administrative leadership further demonstrate a commitment to academic excellence and mentorship. In addition to his scholarly work, Dr. Abbasi contributes to academic society through journal reviewing and event organization, reflecting well-rounded professional engagement. While he already possesses a strong theoretical and research skill set, expanding his work into interdisciplinary domains and pursuing international collaborations and funding opportunities could significantly enhance the impact of his research. Overall, Dr. Abbasi has proven himself to be a dedicated researcher, an effective educator, and a valuable contributor to the advancement of gravitational physics. With continued support and opportunity, his work is poised to make a lasting impact on the scientific community and future innovations in mathematical modeling of the universe.

Publications Top Notes

1. Gravitational Energy Creation in Sandwich pp-Wave Spacetime
Authors: F. L. Carneiro and K. Q. Abbasi
Journal: Classical and Quantum Gravity
Status: Accepted
Year: 2025

2. Accretion with Back-Reaction onto Cylindrically Symmetric Black Hole with Energy Conditions Analysis
Authors: M. Zubair Ali Moughal and K. Q. Abbasi
Journal: Chinese Physics C, Vol. 49, No. 5, 055104
Year: 2025

3. Separating the Frequency and Amplitude in the Strengths of Colliding Plane Gravitational Waves
Authors: K. Q. Abbasi and A. Qadir
Journal: International Journal of Geometric Methods in Modern Physics
Status: Accepted
Year: 2025

4. Energy Extraction from Rotating Black Hole with Quintessential Energy through the Penrose Process
Authors: K. Q. Abbasi, F. L. Carneiro, M. Z. A. Moughal
Platform: arXiv preprint
Identifier: arXiv:2503.15543
Year: 2025

5. Colliding Gravitational Waves of Different Strengths Revisited
Authors: K. Q. Abbasi and A. Qadir
Source: Proceedings of the 17th Marcel Grossmann Meeting, Eds. R. Ruffini and G. Vereshchagin
Dates: July 7–12
Year: 2024

6. Kinetic Energy and Angular Momentum of Free Particles in a Class of Rotating Cylindrical Gravitational Waves Using the Noether Symmetry Approach
Authors: K. Q. Abbasi, Ibrar Hussain
Journal: International Journal of Geometric Methods in Modern Physics, Vol. 21, No. 02, 2550042
Year: 2024

7. Colliding Plane Gravitational Waves of Unequal Strength
Authors: K. Q. Abbasi, Asghar Qadir
Journal: General Relativity and Gravitation, Vol. 55, No. 10, 117
Publisher: Springer US
Year: 2023

8. Study of Gyratonic pp-Waves by Using the Noether Symmetry Approach
Authors: K. Q. Abbasi, Ibrar Hussain
Journal: The European Physical Journal Plus, Vol. 137, No. 12, 1359
Publisher: Springer Berlin Heidelberg
Year: 2022

9. Probing Szekeres’ Colliding Sandwich Gravitational Waves
Authors: K. Q. Abbasi, Ibrar Hussain, Asghar Qadir
Journal: The European Physical Journal Plus, Vol. 136, No. 5, 565
Year: 2021

10. Probing the Khan-Penrose Colliding Plane Impulsive Gravitational Waves Solution
Authors: K. Q. Abbasi, Asghar Qadir
Journal: Journal of Physics Communications, Vol. 2, No. 2, 025021
Year: 2018

Sergei Perkov | Bio Photonics | Best Researcher Award

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Dr. Sergei Perkov | Bio Photonics | Best Researcher Award

Research Scientist at Skolkovo Institute of Science and Technology, Russia

Sergei Perkov is a distinguished physicist and researcher specializing in biomedical optical sensing, hyperspectral imaging, and fluorescence spectroscopy. With a PhD in Physics from Skolkovo Institute of Science and Technology (Skoltech), he has significantly contributed to the fields of medical imaging, photonics, and optoacoustics. His work focuses on developing noninvasive optical methods for biomedical diagnostics and therapeutic monitoring. He has collaborated with leading research institutions, including Fudan University in China and the University of Texas Medical Branch in the USA. Besides academia, Sergei is an entrepreneur, serving as the CEO and co-founder of “HyperspectRus” LLC, a startup dedicated to hyperspectral imaging solutions. His expertise spans optical sensing, medical devices, and spectroscopy techniques, making him a highly influential figure in biomedical research. With a solid background in applied physics, mathematics, and engineering, he continues to push the boundaries of medical technology and photonic applications. He has secured multiple research grants, prestigious scholarships, and published high-impact papers in journals like the Journal of Biophotonics and Particle & Particle Systems Characterization. Sergei’s innovative research and leadership abilities make him a standout candidate for academic and industrial contributions in biomedical optics.

Professional Profile

Education

Sergei Perkov pursued his PhD in Physics at Skolkovo Institute of Science and Technology (2020-2024), specializing in multispectral monitoring of endogenous chromophores using optical methods for biomedical applications. His doctoral research focused on noninvasive optical sensing techniques, aiming to revolutionize biomedical imaging and diagnostics. Before his PhD, he obtained an MSc in Applied Mathematics and Physics (2018-2020) from Skoltech, where he specialized in Photonics and Quantum Materials, achieving an impressive GPA of 3.89/4. His master’s research included fluorescence spectroscopy and optoacoustics for biomedical applications. He completed his BSc in Applied Mathematics and Physics (2014-2018) at Saint Petersburg Academic University, majoring in Physics and Nanotechnology with a GPA of 3.62/4. His undergraduate studies provided a strong foundation in optical physics, material science, and computational modeling. Throughout his academic journey, Sergei was actively engaged in scientific research, internships, and industrial collaborations, which significantly enriched his theoretical and practical expertise. His multidisciplinary education has enabled him to excel in the development of medical optical technologies, making him a highly skilled and versatile researcher in the field of biophotonics and optical sensing.

Professional Experience

Sergei Perkov has an extensive professional background in research, academia, and entrepreneurship. In December 2024, he assumed the role of Research Scientist at Skoltech’s Center for Photonic Science and Engineering, where he focuses on biophotonics and medical imaging applications. Concurrently, he serves as the CEO and co-founder of “HyperspectRus” LLC, a company dedicated to developing cutting-edge hyperspectral imaging technologies for biomedical applications. Before this, he was a Junior Research Scientist (May – Dec 2024) at Skoltech, contributing to optical sensing technologies. His international experience includes working as a Visiting Scholar at Fudan University (Mar – Jul 2024), where he explored advanced optoelectronics applications. Earlier, he interned at the University of Texas Medical Branch (2019-2020), focusing on optical sensing in neuroscience. Sergei also has industrial experience from IPG Photonics (2019), where he worked on biomedical R&D. His teaching roles at Skoltech (2021-2024) include mentoring students in biophotonics and programming. With a diverse research portfolio, international collaborations, and entrepreneurial leadership, Sergei has established himself as a versatile and influential figure in medical photonics research.

Research Interests

Sergei Perkov’s primary research interests lie in biophotonics, optical sensing, and medical imaging technologies. His work focuses on developing noninvasive optical techniques for monitoring physiological and pathological processes in the human body. He specializes in hyperspectral imaging, fluorescence spectroscopy, and optoacoustic spectroscopy, with applications in disease diagnostics, therapeutic monitoring, and precision medicine. His research explores the use of multispectral and optoacoustic methods to assess tissue composition, hemoglobin levels, and metabolic activities in a noninvasive manner. Additionally, he is interested in real-time optical sensing for personalized medicine, particularly in areas such as phototherapy for hemangiomas and bilirubin monitoring in neonates. Sergei also works on developing compact, low-cost imaging devices for point-of-care medical diagnostics, aiming to make advanced optical technologies accessible to clinicians and patients. His entrepreneurial venture, “HyperspectRus” LLC, aligns with his research focus, translating innovative imaging solutions into real-world medical applications. With a strong foundation in applied physics and engineering, Sergei continues to push the boundaries of biomedical optics and next-generation medical imaging.

Research Skills

Sergei Perkov possesses a diverse set of research skills, making him an expert in biomedical optics and imaging technologies. He has extensive experience in hyperspectral imaging, fluorescence spectroscopy, and optoacoustic spectroscopy, enabling precise biomedical diagnostics and monitoring. His skills in optical system development allow him to design high-performance imaging devices for medical applications. Sergei is also proficient in computational modeling and data analysis, using Matlab, Python, and LabVIEW for image processing and spectral data interpretation. He has hands-on experience with laser systems, optical sensors, and biomedical imaging devices, contributing to the development of noninvasive diagnostic tools. His expertise in machine learning and AI-based image processing further enhances his ability to analyze complex medical imaging data. Additionally, he is skilled in grant writing and project management, having successfully secured several research grants. Sergei’s combination of experimental, computational, and analytical skills makes him a leading researcher in biomedical optics, capable of bridging the gap between theoretical research and practical medical applications.

Awards and Honors

Sergei Perkov has received numerous prestigious awards and honors throughout his academic and professional career. In 2023, he was awarded the Scholarship of the Government of the Russian Federation in priority areas, recognizing his exceptional contributions to research. In 2022, he received the Russian Presidential Scholarship for Study Abroad, allowing him to undertake a six-month international research internship. His scientific excellence was recognized early, winning the Best Report Award at the VII Congress of Young Scientists at ITMO University (2018) for his work in colloid chemistry and material science. Additionally, he secured the 3rd place award at the Regional Physics Olympiad “Rosatom” (2014), highlighting his early potential in physics. His academic achievements and research contributions have positioned him as a leading young scientist in biomedical optics and medical imaging technologies. These accolades underscore his dedication, innovation, and impact in the scientific community.

Conclusion

Sergei Perkov is an outstanding researcher and innovator in biomedical optics, medical imaging, and photonics. His strong academic background, extensive research experience, international collaborations, and leadership in entrepreneurship make him a highly influential figure in medical photonics. His contributions to noninvasive optical diagnostics, hyperspectral imaging, and fluorescence spectroscopy have the potential to revolutionize medical diagnostics and therapeutic monitoring. With a strong publication record, multiple awards, and entrepreneurial success, Sergei has demonstrated exceptional research capabilities and leadership qualities. As he continues to advance medical imaging and optical sensing technologies, his work will undoubtedly have a significant impact on healthcare and biomedical engineering. His innovative approach and commitment to translational research make him a prime candidate for prestigious research awards and academic recognition.

Publication Top Notes

  1. Title: Photoinduced Toxicity Caused by Gold Nanozymes and Photodynamic Dye Encapsulated in Submicron Polymer Shell
    • Authors: Sergeev, I.S., Maksimova, E.A., Moiseeva, E.O., Deyev, S.M., Gorin, D.A.
    • Journal: Particle and Particle Systems Characterization
    • Citations: 2
    • Year: 2024
  2. Title: Rapid low-cost hyperspectral imaging system for quantitative assessment of infantile hemangioma
    • Authors: Perkov, S., Vorobev, V., Kurochkin, M.A., Gorodkov, S., Gorin, D.
    • Journal: Journal of Biophotonics
    • Citations: 1
    • Year: 2024
  3. Title: Optoacoustic monitoring of bilirubin photodegradation
    • Authors: Perkov, S., Makhortov, M., Grishin, O., Bratashov, D., Gorin, D.
    • Journal: Journal of Biophotonics
    • Citations: 2
    • Year: 2023
  4. Title: Noninvasive, continuous fluorescence monitoring of bilirubin photodegradation
    • Authors: Perkov, S., Gorin, D.
    • Journal: Physical Chemistry Chemical Physics
    • Citations: 1
    • Year: 2023
  5. Title: Concentration Dependence of Optical Transmission and Extinction of Different Diatom Cultures
    • Authors: Cvjetinovic, J., Perkov, S.A., Kurochkin, M.A., Korsunsky, A.M., Gorin, D.A.
    • Journal: Journal of Biomedical Photonics and Engineering
    • Year: 2023
  6. Title: Optoacoustic monitoring of water content in tissue phantoms and human skin
    • Authors: Perkov, S.A., Gorin, D.A., Esenaliev, R.O.
    • Journal: Journal of Biophotonics
    • Citations: 10
    • Year: 2021
  7. Title: Investigation of Na⁺/K⁺-ATPase role in cancer cells’ functioning
    • Authors: Perkov, S.A., Emelyanov, A.K., Shmakov, S.V., Bogdanov, A.A.
    • Journal: Journal of Physics: Conference Series
    • Citations: 1
    • Year: 2018