Prof. Dr. Ashot Gevorkyan | Best Research Article Award

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Prof. Dr. Ashot Gevorkyan | Best Research Article Award

Institute for Informatics NAS of Armenia | Armenia

Ashot S. Gevorkyan is a quantum and mathematical physicist at the Institute for Informatics and Automation Problems, National Academy of Sciences of the Republic of Armenia. He has contributed extensively to the study of quantum mechanics, statistical properties of N-particle systems, three-body problems, quantum chaos, and quantum thermodynamics. Gevorkyan’s research encompasses quantum harmonic oscillators, quantum vacuum structures, disordered spin systems, and the interaction of classical and quantum systems under random environments and external fields. His work has explored irreversibility, time’s arrow, and fundamental aspects of both classical and quantum dynamical systems, with applications in gamma radiation production, dielectric superlattices, and biosensing technologies. Gevorkyan has authored over 55 documents, with an h-index of 5, and has co-authored numerous influential papers in journals such as Laser Physics Letters, Physics of Atomic Nuclei, Symmetry, and Particles. His collaborative work frequently intersects with advanced computational methods, probabilistic processes, and modeling of complex quantum systems. Gevorkyan’s ongoing contributions continue to advance understanding of low-dimensional dynamical systems, self-organizing processes, and the foundations of quantum mechanics, cementing his position as a prominent researcher in the field.

Citation Metrics (Scopus)

125
100
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Citations
108

Documents
55

h-index
5

Citations

Documents

h-index


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Assoc. Prof. Dr. Chao Mei | Best Researcher Award

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Assoc. Prof. Dr. Chao Mei | Best Researcher Award

Ningbo University | China

Chao Mei is an Associate Professor at the School of Physical Science and Technology, Ningbo University, recognized for his significant contributions to nonlinear optics, ultrafast spectroscopy, and strong-field physics. With an h-index of 16, over 600+ citations, and more than 40 peer-reviewed documents, his research has advanced pulse compression, photonic crystal fibers, mid-infrared photonics, and plasmonic sensing technologies. He received strong foundational training in optics and photonics through graduate studies and has accumulated extensive academic and research experience through sustained collaborations across leading photonics laboratories. Dr. Mei’s work integrates theoretical modeling, materials design, and experimental ultrafast photonics, with impactful achievements such as high-temperature hollow-core fiber interferometry, advanced mid-infrared pulse compression, and high-sensitivity plasmonic fiber sensors. His research interests span χ(3) nonlinear processes, supercontinuum generation, silicon-based photonic waveguides, parabolic pulse evolution, fiber-based sensing, and the development of ultrafast light sources. He has contributed to high-impact journals including Journal of Lightwave Technology, Optics Letters, Optics Express, and Physical Review A. Dr. Mei has been recognized through multiple research grants and collaborative project awards that underscore his influence in the field. Overall, his body of work continues to advance next-generation ultrafast photonic devices and integrated nonlinear optical systems.

Profile : Google Scholar

Featured Publications

Liu, D., Wu, Q., Mei, C., Yuan, J., Xin, X., Mallik, A. K., … Han, W. (2018). Hollow core fiber based interferometer for high-temperature (1000° C) measurement. Journal of Lightwave Technology, 36(9), 1583–1590.

Qu, Y., Yuan, J., Zhou, X., Li, F., Mei, C., Yan, B., … Long, K. (2019). A V-shape photonic crystal fiber polarization filter based on surface plasmon resonance effect. Optics Communications, 452, 1–6.

Mei, C., Li, F., Yuan, J., Kang, Z., Zhang, X., Wang, K., … Yan, B. (2016). High degree picosecond pulse compression in chalcogenide-silicon slot waveguide taper. Journal of Lightwave Technology, 34(16), 3843–3852.

Zhang, J., Yuan, J., Qu, Y., Qiu, S., Mei, C., Zhou, X., … Wang, K. (2022). A surface plasmon resonance-based photonic crystal fiber sensor for simultaneously measuring the refractive index and temperature. Polymers, 14(18), 3893.

Assoc. Prof. Dr. Farzaneh Marahel | Editorial Board Member Award

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Assoc. Prof. Dr. Farzaneh Marahel | Editorial Board Member Award

Islamic Azad University | Iran

Dr. Farzaneh Marahel is a faculty member in the Department of Chemistry at Islamic Azad University, Tehran, Iran, where she has developed a strong research profile in analytical chemistry, sensor design and nanomaterials-based environmental and biological monitoring. Her documented output includes over 40 publications and more than 1,000 citations according to ResearchGate. While a formal h-index value could not be verified publicly, her citation record suggests a solid impact in her field. Her education background is in chemistry and nanomaterials (Iran) and she has progressed through roles involving analytical method development and nanostructured sensor fabrication for real-world samples (blood, urine, drinks, foods). Her research interests focus on quantum dots, G-C₃N₄ nanosheets, electrochemical and spectrofluorimetric sensing platforms for toxic compounds, dyes and pharmaceutically relevant analytes. Recent work includes a resonance Rayleigh scattering technique using GSH-capped PbS quantum dots and a square-wave anodic stripping voltammetric sensor employing G-C₃N₄ nanosheets. She is also active in peer-review, having reviewed for journals such as Langmuir, Separation and Purification Technology and Sustainable Chemistry & Pharmacy. Given her continuing output and review service, she is a promising mid-career researcher whose work helps bridge nanomaterials, environmental analysis and medical-bioanalytical sensing. In summary, Dr. Marahel represents an emerging leader in nanosensor research with growing scholarly impact and an applied focus on real-world analytical challenges.

Profile : Orcid 

Featured Publications

 Amouri, A., Marahel, F., Geramizadegan, A., & Asghariganjeh, M. R. (2025). Design of a resonance Rayleigh scattering technique and spectrofluorimetric method using GSH-capped PbS quantum dots for sensing nortriptyline in urine and blood samples. Spectroscopy Letters, 58(9), [Article e2554233]. https://doi.org/10.1080/00387010.2025.2554233

 Marahel, F., & Niknam, L. (2022). Application electrochemical sensor based on nanosheets G-C3N4/CPE by square-wave anodic stripping voltammetric for measuring amounts of toxic tartrazine color residual in different drink and foodstuffs. Journal of Environmental Science and Health, Part B, 57(6), 457–467. https://doi.org/10.1080/03601234.2022.2064676

Assoc. Prof. Dr. Farzaneh Marahel | Best Researcher Award

Published on by Physics and Quantum Physics

Assoc. Prof. Dr. Farzaneh Marahel | Best Researcher Award

Islamic Azad University | Iran

Dr. Farzaneh Marahel is a faculty member in the Department of Chemistry at Islamic Azad University, Tehran, Iran, where she has developed a strong research profile in analytical chemistry, sensor design and nanomaterials-based environmental and biological monitoring. Her documented output includes over 40 publications and more than 1,000 citations according to ResearchGate. While a formal h-index value could not be verified publicly, her citation record suggests a solid impact in her field. Her education background is in chemistry and nanomaterials (Iran) and she has progressed through roles involving analytical method development and nanostructured sensor fabrication for real-world samples (blood, urine, drinks, foods). Her research interests focus on quantum dots, G-C₃N₄ nanosheets, electrochemical and spectrofluorimetric sensing platforms for toxic compounds, dyes and pharmaceutically relevant analytes. Recent work includes a resonance Rayleigh scattering technique using GSH-capped PbS quantum dots and a square-wave anodic stripping voltammetric sensor employing G-C₃N₄ nanosheets. She is also active in peer-review, having reviewed for journals such as Langmuir, Separation and Purification Technology and Sustainable Chemistry & Pharmacy. Given her continuing output and review service, she is a promising mid-career researcher whose work helps bridge nanomaterials, environmental analysis and medical-bioanalytical sensing. In summary, Dr. Marahel represents an emerging leader in nanosensor research with growing scholarly impact and an applied focus on real-world analytical challenges.

Profile : Orcid 

Featured Publications

 Amouri, A., Marahel, F., Geramizadegan, A., & Asghariganjeh, M. R. (2025). Design of a resonance Rayleigh scattering technique and spectrofluorimetric method using GSH-capped PbS quantum dots for sensing nortriptyline in urine and blood samples. Spectroscopy Letters, 58(9), [Article e2554233]. https://doi.org/10.1080/00387010.2025.2554233

 Marahel, F., & Niknam, L. (2022). Application electrochemical sensor based on nanosheets G-C3N4/CPE by square-wave anodic stripping voltammetric for measuring amounts of toxic tartrazine color residual in different drink and foodstuffs. Journal of Environmental Science and Health, Part B, 57(6), 457–467. https://doi.org/10.1080/03601234.2022.2064676