Osvaldo Civitarese | Weak interactions | Editorial Board Member

Published on by Physicist Particle

Editorial Board Member

Osvaldo Civitarese
Particle Physics and Cosmology Researcher
Affiliation Universidad Nacional de La Plata (UNLP)
Country Argentina
Scopus ID 7005690970
Documents 352
Citations 5,301
h-index 37
Subject Area Particle physics and cosmology
Event Global Particle Physics Excellence Awards
ORCID 0000-0001-5447-850X

Osvaldo Civitarese is a physicist affiliated with the Universidad Nacional de La Plata (UNLP), Argentina, whose scholarly work has contributed extensively to the fields of particle physics, nuclear theory, neutrino physics, cosmology, and quantum statistical mechanics. His publication record includes a broad range of peer-reviewed journal articles, conference papers, and theoretical investigations involving neutrino interactions, dark matter models, axion-neutrino couplings, double-beta decay, and quantum many-body systems.[1] His academic profile reflects sustained international collaboration and a consistent research presence within high-impact physics journals and interdisciplinary cosmological studies.[2]

Abstract

The academic work of Osvaldo Civitarese spans several interconnected domains within theoretical and particle physics, including neutrino oscillations, dark matter phenomenology, nuclear structure calculations, axion-neutrino interactions, and quantum statistical mechanics. His contributions have supported theoretical investigations into astrophysical neutrino propagation, quantum unstable states, and particle interaction modeling in cosmological environments.[2] Through an extensive body of peer-reviewed publications and collaborations, he has contributed to the broader understanding of particle interactions and cosmological processes relevant to modern theoretical physics.[3]

Keywords

Particle physics, cosmology, neutrino physics, dark matter, axion interactions, double-beta decay, quantum statistical mechanics, nuclear structure theory, astrophysical neutrinos, theoretical physics.

Introduction

Theoretical particle physics and cosmology continue to play a critical role in understanding the fundamental structure of matter, energy, and the evolution of the universe. Researchers working in these disciplines contribute to the development of models that explain neutrino behavior, dark matter interactions, quantum field dynamics, and astrophysical processes. Osvaldo Civitarese has participated in these scientific developments through theoretical studies focused on neutrino mass mechanisms, nuclear matrix elements, cosmological particle interactions, and quantum systems.[2]

His academic profile demonstrates long-term involvement in nuclear and particle theory, supported by collaborations across international research groups and publications in journals such as Physical Review C, Physical Review D, Physics Letters B, and International Journal of Modern Physics E.[4]

Research Profile

According to Scopus author records, Osvaldo Civitarese has authored or co-authored 352 scholarly documents and accumulated more than 5,301 citations, with an h-index of 37.[1] His affiliation with Universidad Nacional de La Plata reflects continued engagement in advanced theoretical physics research and academic mentoring.[2]

His ORCID profile additionally documents academic appointments, educational background, and international research activities, including postdoctoral training at the University of Copenhagen and support from the Alexander von Humboldt Foundation.[2]

  • Specialization in neutrino physics and cosmological particle interactions.
  • Research contributions involving dark matter and axion-neutrino coupling models.
  • Extensive publication activity in nuclear and particle physics journals.
  • Participation in theoretical modeling of astrophysical and quantum systems.

Research Contributions

Civitarese has contributed to theoretical studies concerning neutrinoless double-beta decay and the effective axial-vector current coupling relevant to nuclear transition calculations.[3] These investigations are relevant for understanding neutrino mass generation and weak interaction processes in nuclear systems.

His work on axion-neutrino couplings and dark matter phenomenology has explored the implications of Peccei–Quinn symmetry breaking, axion mass hierarchy, and neutrino interactions within cosmological environments.[4] These studies connect theoretical particle models with observable cosmological phenomena and astrophysical constraints.

Additional research has focused on quantum unstable states, Gamow states, and statistical mechanics, including investigations into entropy, quantum resonance structures, and non-perturbative quantum chromodynamics.[5]

Publications

Selected publications associated with Osvaldo Civitarese include contributions to nuclear theory, cosmology, neutrino physics, and statistical mechanics.[3]

Research Impact

The research output associated with Osvaldo Civitarese demonstrates sustained influence within theoretical and particle physics literature. His citation metrics and publication history indicate scholarly engagement across nuclear theory, cosmology, astrophysical neutrino studies, and quantum mechanics.[1]

Several of his investigations contribute to contemporary discussions involving neutrino mass hierarchy, dark matter interactions, and quantum statistical systems, which remain important areas of inquiry in modern particle physics and cosmology.[4]

Award Suitability

Osvaldo Civitarese’s academic achievements, publication record, citation impact, and sustained theoretical contributions support recognition within international scientific forums related to particle physics and cosmology. His multidisciplinary research spanning neutrino theory, dark matter physics, and nuclear structure calculations aligns with the scholarly objectives of the Global Particle Physics Excellence Awards.[1]

His role as an emeritus professor and active contributor to ongoing theoretical research further demonstrates long-standing engagement with scientific advancement and academic collaboration.[2]

Conclusion

The academic profile of Osvaldo Civitarese reflects a substantial contribution to theoretical particle physics, cosmology, and nuclear physics research. Through extensive scholarly publications, international collaborations, and investigations into neutrino phenomena, dark matter interactions, and quantum systems, he has contributed to the development of modern theoretical frameworks within high-energy and astrophysical physics.[3]

References

  1. Elsevier. (2026). Scopus author details: Osvaldo Civitarese, Author ID 7005690970. Scopus Preview.
    https://www.scopus.com/authid/detail.uri?authorId=7005690970
  2. ORCID. (2026). Osvaldo Civitarese ORCID profile.
    https://orcid.org/0000-0001-5447-850X
  3. Civitarese, O., Fassari, S., Gadella, M., & Rinaldi, F. (2025). The Birman–Schwinger operator for the Cornell Hamiltonian. European Physical Journal Plus.
    https://doi.org/10.1140/epjp/s13360-025-07192-1
  4. Civitarese, O. (2024). On the Breaking of the U(1) Peccei–Quinn Symmetry and Its Implications for Neutrino and Dark Matter Physics. Symmetry.
    https://doi.org/10.3390/sym16030364
  5. Civitarese, O., & Gadella, M. (2024). On the Concept of Quantum-Unstable States in Statistical Mechanics: The Case of the Entropy. SSRN.
    https://doi.org/10.2139/ssrn.4712942

Ram Kumar | The matter particles | Research Excellence Award

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Dr. Ram Kumar | The matter particles | Research Excellence Award

University of the Witwatersrand, South Africa

RDr. Ram Nandan Kumar is an emerging researcher in the field of structured light, spin–orbit interaction, optical tweezers, and angular momentum in photonics. Affiliated with University of the Witwatersrand, his research primarily focuses on the interaction of light with mesoscopic particles, optical manipulation, and advanced vector beam dynamics. Dr. Ram Nandan Kumar has developed a strong scholarly profile with 86 citations, an h-index of 4, and an i10-index of 2, reflecting growing recognition within the optics and photonics community. His notable publications in prestigious journals such as Physical Review A, Laser & Photonics Reviews, and Advanced Photonics Nexus demonstrate his contribution to spin-Hall effects, optical torque, vector vortex beams, and optical micromotors. Through collaborations with prominent scholars including Ayan Banerjee and Andrew Forbes, he continues advancing innovative research in modern photonics and structured light physics.

Professional Profile

Education

Dr. Ram Nandan Kumar has developed a strong academic foundation in physics, optics, and photonics through advanced research training and interdisciplinary scientific engagement. He is affiliated with University of the Witwatersrand, where he contributes to the renowned Structured Light Laboratory focusing on modern optical science and light–matter interaction studies. His academic journey reflects deep specialization in spin–orbit interaction of light, optical tweezers, vector beams, and structured photonic systems. His doctoral and research activities demonstrate substantial expertise in theoretical and experimental optics, particularly in angular momentum and polarization dynamics. He has also been associated with collaborative scientific environments connected to advanced photonics and structured light research communities. Through conference presentations, peer-reviewed publications, and research-driven academic contributions, he continues strengthening his scholarly profile within modern photonics. His educational progression highlights analytical excellence, computational understanding, and practical laboratory skills essential for cutting-edge optical physics research.

Professional Experience

Dr. Ram Nandan Kumar has accumulated valuable research experience in optics, photonics, and structured light applications through his active involvement in high-level scientific collaborations and experimental investigations. Working within the Structured Light Laboratory at the University of the Witwatersrand, he has participated in advanced studies involving optical trapping, vector vortex beams, spin angular momentum, and photonic manipulation systems. His research contributions span internationally recognized journals, conference proceedings, and arXiv publications, demonstrating continuous involvement in evolving photonics technologies. He has collaborated with distinguished scientists including Ayan Banerjee, Andrew Forbes, and other global researchers in structured light and optical communications. His professional experience also includes work on optical micromotors, optical computation systems, and skyrmionic topologies of light. Through experimental design, numerical simulations, and interdisciplinary teamwork, he has established himself as a promising emerging physicist in modern optics and photonics research.

Research Interest

The research interests of Dr. Ram Nandan Kumar revolve around structured light, spin–orbit interaction, angular momentum of light, optical tweezers, and photonic manipulation of mesoscopic particles. His work particularly emphasizes the interaction between polarization, orbital angular momentum, and vector beam dynamics in tightly focused optical systems. He investigates rotational spin-Hall effects, asymmetric transverse spin angular momentum, and birefringent particle dynamics using optical trapping techniques. His studies further explore optical micromotors, vector vortex beams, skyrmionic light structures, and higher-order beam generation through spin–orbit interaction. In addition, he is interested in optical computation systems, photonic communications, and advanced light engineering applications. His collaborative projects also involve machine learning-assisted photonics and complex structured light systems for next-generation optical technologies. These research interests position him at the intersection of theoretical optics, experimental photonics, and emerging quantum-inspired light manipulation technologies.

Award and Honor

Although still in the emerging stage of his academic career, Dr. Ram Nandan Kumar has earned increasing recognition through impactful research publications, scientific collaborations, and growing citation metrics within the optics and photonics community. His scholarly profile records 86 citations, an h-index of 4, and an i10-index of 2, indicating rising influence in structured light and optical manipulation research. Several of his studies have appeared in prestigious journals including Physical Review A, Laser & Photonics Reviews, and Advanced Photonics Nexus. His collaborative research environment at the Structured Light Laboratory has also contributed to internationally recognized advancements in structured light physics, including work highlighted among major global optics achievements. Participation in advanced international workshops, scientific conferences, and interdisciplinary photonics projects further reflects his growing academic distinction and recognition within the global optics research network.

Conclusion

Dr. Ram Nandan Kumar represents a promising and innovative researcher in the rapidly advancing field of structured light and photonics. His strong academic background, expanding publication record, collaborative international research activities, and growing citation impact demonstrate significant potential for future scientific leadership. Through contributions to optical tweezers, spin–orbit interaction, vector beams, and photonic manipulation technologies, he has already established a meaningful presence within modern optics research. His association with globally recognized structured light research initiatives further enhances his academic credibility and scientific visibility. With continued interdisciplinary collaboration, broader publication outreach, and sustained innovation in photonics, Dr. Kumar is well positioned to become an influential contributor to future developments in optical physics, quantum-inspired photonics, and advanced light engineering applications worldwide.

Publications Top Notes

Title: Probing the rotational spin-Hall effect in a structured Gaussian beam
Authors: RN Kumar, Yatish, SD Gupta, N Ghosh, A Banerjee
Year: 2022
Citation: 34

Title: Probing Dual Asymmetric Transverse Spin Angular Momentum in Tightly Focused Vector Beams in Optical Tweezers
Authors: RN Kumar, JK Nayak, SD Gupta, N Ghosh, A Banerjee
Year: 2023
Citation: 30

Title: Inhomogeneous-spin-momentum-induced orbital motion of birefringent particles in tight focusing of vector beams in optical tweezers
Authors: RN Kumar, AD Ranjan, S Roy, SD Gupta, N Ghosh, A Banerjee
Year: 2024
Citation: 9

Title: Spatially resolved spin angular momentum mediated by spin–orbit interaction in tightly focused spinless vector beams in optical tweezers
Authors: RN Kumar, S Roy, SD Gupta, N Ghosh, A Banerjee
Year: 2025
Citation: 6

Title: Manipulation of mesoscopic particles using a structured beam in optical tweezers
Authors: RN Kumar, SD Gupta, N Ghosh, A Banerjee
Year: 2022
Citation: 4

 

Mahmoud Elalfy | Particle Experiments | Outstanding Contribution Award

Published on by Physicist Particle

Assoc. Prof. Dr. Mahmoud Elalfy | Particle Experiments | Outstanding Contribution Award

King Faisal University, Saudi Arabia

Assoc. Prof. Dr. Mahmoud Elalfy is a distinguished academic and researcher affiliated with King Faisal University, recognized for his meaningful contributions to veterinary sciences, toxicology, and biomedical research. His scholarly profile demonstrates consistent academic productivity with 13 indexed documents, 84 citations, and an h-index of 6, reflecting notable scientific influence and research visibility. Dr. Elalfy’s recent work on azoxystrobin-induced genetic damage and histopathological alterations in albino rats highlights his expertise in toxicological assessment, experimental biology, and biomedical investigation. His research combines laboratory analysis, quantitative prediction models, and pathological evaluation to address significant scientific and health-related concerns. Through interdisciplinary collaborations and scientific publications, he has contributed to advancing knowledge in animal health, environmental toxicology, and physiological sciences. His growing academic reputation, commitment to research excellence, and dedication to impactful scientific exploration establish him as a promising contributor within modern veterinary and biomedical research communities.

Professional Profile

Education

Assoc. Prof. Dr. Mahmoud Elalfy has developed a distinguished academic foundation through advanced studies in veterinary medicine, physiology, toxicology, and biomedical sciences. His educational journey reflects strong scientific preparation in experimental pathology, molecular biology, pharmacology, and physiological investigations. Through rigorous academic training, he acquired expertise in laboratory experimentation, histopathological diagnostics, genetic toxicology, and quantitative biological analysis. His scholarly background has enabled him to contribute effectively to interdisciplinary biomedical research addressing oxidative stress, carcinogenic compounds, cellular apoptosis, and tissue protection mechanisms. Dr. Elalfy’s academic development is further reflected in his internationally indexed scientific publications and collaborative research contributions. His Scopus profile demonstrates 13 documents, 84 citations by 84 documents, and an h-index of 6, highlighting measurable scientific influence and academic productivity. Through continuous learning and research engagement, he has strengthened his capabilities in biomedical innovation, translational physiology, and toxicological assessment, positioning himself as a dedicated scholar committed to advancing scientific understanding in veterinary and health-related disciplines.

Professional Experience

Assoc. Prof. Dr. Mahmoud Elalfy has gained extensive professional and academic experience through his affiliation with King Faisal University and his involvement in multidisciplinary biomedical investigations. His experience includes experimental physiology, toxicological pathology, molecular research, and animal model-based scientific studies. Over the years, he has actively contributed to research examining oxidative stress, tissue injury, carcinogenic effects, and protective pharmacological mechanisms. His work combines laboratory experimentation with quantitative biological analysis to investigate complex physiological disorders and toxicological responses. Dr. Elalfy has collaborated with numerous international co-authors, strengthening interdisciplinary scientific communication and research integration. His publication portfolio demonstrates consistent scholarly productivity and active participation in high-quality biomedical research initiatives. Through scientific supervision, collaborative studies, and advanced experimental investigations, he has established a strong professional reputation in physiology and toxicology. His experience reflects dedication to scientific precision, academic excellence, and meaningful contributions toward improving biomedical and veterinary research methodologies.

Research Interest

Assoc. Prof. Dr. Mahmoud Elalfy focuses his research on toxicology, molecular physiology, pharmacological protection, histopathology, and experimental biomedical sciences. His investigations particularly emphasize oxidative stress pathways, genetic damage, carcinogenic exposure, apoptosis, autophagy regulation, and tissue protection mechanisms using experimental animal models. Dr. Elalfy has explored the biological influence of toxic compounds and therapeutic substances through advanced laboratory methodologies and physiological assessments. His studies involving Nrf2 signaling, PPARγ regulation, and pathological tissue alterations demonstrate strong interest in cellular defense systems and disease prevention strategies. Additionally, his work on carcinogenic compounds and cancer bioassays reflects expertise in translational biomedical applications and toxicological risk evaluation. With 13 indexed publications, 84 citations, and an h-index of 6, his scientific contributions continue to gain recognition within biomedical and veterinary research communities. His evolving research interests integrate molecular biology, toxicological pathology, and physiological therapeutics to advance innovative healthcare solutions and experimental scientific discovery.

Award and Honor

Assoc. Prof. Dr. Mahmoud Elalfy has earned significant academic recognition through impactful biomedical publications, interdisciplinary collaborations, and contributions to toxicological and physiological research. His scientific profile demonstrates growing international visibility with 13 published documents, 84 citations, and an h-index of 6, indicating meaningful research influence and scholarly consistency. His publications in respected journals including PLoS ONE, Korean Journal of Physiology and Pharmacology, and Journal of Basic and Clinical Physiology and Pharmacology reflect professional acknowledgment of his research quality and scientific relevance. His investigations into oxidative stress, carcinogenic toxicity, and cellular protection mechanisms have strengthened his reputation within biomedical science and veterinary physiology. Through collaborative international research and advanced experimental investigations, Dr. Elalfy has established himself as a promising scholar dedicated to scientific advancement, innovative biomedical exploration, and impactful physiological research with growing academic distinction.

Conclusion

Assoc. Prof. Dr. Mahmoud Elalfy represents a committed and innovative researcher whose scientific journey reflects academic excellence, interdisciplinary collaboration, and impactful biomedical contributions. His educational background, professional experience, and focused research investigations have enabled him to build a meaningful scientific presence within toxicology, physiology, and experimental biomedical sciences. With 13 indexed publications, 84 citations, and an h-index of 6, he has demonstrated measurable research impact and growing international recognition. His studies involving oxidative stress regulation, carcinogenic assessment, tissue pathology, and molecular therapeutic mechanisms illustrate analytical depth and translational scientific relevance. Through continuous publication efforts, collaborative engagement, and advanced laboratory investigations, Dr. Elalfy continues to strengthen his academic influence and future research potential. His dedication to advancing biomedical knowledge, improving experimental methodologies, and contributing to healthcare-oriented scientific innovation positions him as a valuable contributor to contemporary biomedical and veterinary research communities.

Publications Top Notes

Title: Cardamonin exerts a protective effect against autophagy and apoptosis in the testicles of diabetic male rats through the expression of Nrf2 via p62-mediated Keap-1 degradation
Authors: Samir, S.M.; Elalfy, M.; Nashar, E.M.E.; Alghamdi, M.A.; Hamza, E.; Serria, M.S.; Elhadidy, M.G.
Year: 2021

Title: Prophylactic effect of aquatic extract of stevia on acetic acid induced-ulcerative colitis in male rats: A possible role of Nrf2 and PPARγ
Authors: Mostafa, A.F.; Elalfy, M.M.; Shata, A.; Elhadidy, M.G.
Year: 2020

Title: PET/CT imaging of c-Myc transgenic mice identifies the genotoxic N-Nitroso-Diethylamine as carcinogen in a Short-Term cancer bioassay
Authors: Hueper, K.; Elalfy, M.; Laenger, F.; Halter, R.; Rodt, T.; Galanski, M.; Borlak, J.
Year: 2012

Hao Zhang | Physics and Astronomy | Best Scholar Award

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Prof. Hao Zhang | Physics and Astronomy | Best Scholar Award

Intelligent Manufacturing | Jiangsu Jicui Mixed Reality Artificial Intelligence Innovation Center | China

Prof. Hao Zhang is a Chartered Engineer (CEng), FIET, and Life Fellow of the Royal Society for the encouragement of Arts Manufactures and Commerce, recognized for interdisciplinary innovation spanning intelligent manufacturing, robotics, industrial control systems, AI-driven automation, and advanced theoretical physics. He co-authored Mathematical Insights for Cutting-Edge Solutions in Theoretical Physics: String Theory, Quantum Gravity, and Cosmology (2026), reflecting engagement in string theory and cosmology. His research skills include PLC-based automation, embedded systems, digital twins, smart energy systems, and large-scale industrial integration. With extensive patents and software copyrights, his scholarly portfolio reflects sustained impact. Honors include the IET Excellence and Innovation Award, Geneva Invention Award, German iENA Gold Medal, and multiple national Science and Technology Progress Awards, highlighting global innovation leadership.

View Book Details

Book Topic Coverage Strength

Topic Coverage (1–5)
String Theory 5
Quantum Gravity 5
Cosmology 5
Quantum Field Theory 4
Geometry 4
Number Theory 4
Arithmetic 3
Spacetime Structure 4
Quantum Computing 3
Theoretical Physics 5

Distinguished Book Publication

Lubomir Traikov | Weak Interactions | Best Researcher Award

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Assoc. Prof. Dr. Lubomir Traikov | Weak Interactions | Best Researcher Award

Assoc. Prof. Dr Lubomir Traikov, Dept. Medical Physics and Biophysics, Faculty of Medicine, Medical University-Sofia, Bulgaria

Assoc. Prof. Dr. lubomir traikov is a faculty member in the Department of Medical Physics and Biophysics at the Medical University of Sofia, Bulgaria. His academic journey began at the University of Sofia “St. Kliment Ohridski,” where he earned his Ph.D. in Biophysics, focusing on the luminescent properties of biological membranes. Following his doctoral studies, he pursued postdoctoral research at Japan’s National Institute of Public Health, where he specialized in the microcirculation of the blood-brain barrier. His research interests encompass the biophysical impacts of magnetic fields, luminescent properties of biological systems, and dynamic system modeling in biomedical applications.

PROFILE

Google Scholar Profile

Educational Details

Ph.D. in Biophysics
University of Sofia “St. Kliment Ohridski” (2001)
Thesis: Analysis of the changes in luminescent characteristics of the thylakoid membrane by Pisum sativum L. under physical and chemical factors impact – independent and in combination.

M.Sc. in Biophysics
University of Sofia “St. Kliment Ohridski” (1995)
Thesis: Magnetic field effects on structure and function of erythrocyte membranes.
Average Grade: Very Good (5.20), State Exam: Excellent (6.00)

B.Sc. in Biophysics
University of Sofia “St. Kliment Ohridski” (1993)

Secondary Education
College of Industrial Chemistry and Biotechnology “Prof. A. Zlatarov” (1990)
Average Grade: Excellent (5.53)
Qualification: Laboratory Assistant

Professional Experience

Associate Professor
Department of Medical Physics and Biophysics, Faculty of Medicine, Medical University of Sofia, Bulgaria

Postdoctoral Training
National Institute of Public Health (NIPH), Tokyo, Japan (2002-2004)
Specialized in Blood-Brain Barrier (BBB) microcirculation research

Research Interests

Luminescent properties of biological membranes and their response to environmental stress factors

Magnetic field effects on membrane structures and biophysical processes

Signal processing, database analysis, and mathematical modeling of dynamic biological systems

Blood-brain barrier and microcirculation studies

Skills

Software Proficiency: MATLAB, OriginPro, SigmaPlot, SigmaStat, SPSS, Statistica, MS Office (Word, Access, Excel, PowerPoint, Publisher), and various internet applications.

Programming Languages: C++, MATLAB, Python

Graphic and Molecular Design: CorelDRAW, Adobe Suite, CS-ChemOffice, and molecular visualization tools (MS-Viewer, Raswin)

Top Notable Publications

“Low-temperature exothermic transitions in brain proteome of mice, effect of scopolamine”
Authors: B. Tenchov, S. Abarova, R. Koynova, L. Traikov, L. Tancheva
Journal: Thermochimica Acta, Volume 650, Pages 26-32, Year: 2017
Citations: 25

“A new approach for investigating neurodegenerative disorders in mice based on DSC”
Authors: B. Tenchov, S. Abarova, R. Koynova, L. Traikov, S. Dragomanova, et al.
Journal: Journal of Thermal Analysis and Calorimetry, Volume 127, Pages 483-486, Year: 2017
Citations: 25

“Antioxidant effect of alpha-lipoic acid in 6-hydroxydopamine unilateral intrastriatal injected rats”
Authors: P. Andreeva-Gateva, L. Traikov, Z. Sabit, D. Bakalov, et al.
Journal: Antioxidants, Volume 9, Issue 2, Article 122, Year: 2020
Citations: 21

“Effect of Tyr-MIF-1 peptides on blood ACTH and corticosterone concentration induced by three experimental models of stress”
Authors: A. Bocheva, E. Dzambazova, R. Hadjiolova, L. Traikov, R. Mincheva, et al.
Journal: Autonomic and Autacoid Pharmacology, Volume 28, Issue 4, Pages 117-123, Year: 2008
Citations: 17

“Characteristics of 2.45 GHz Surface-Wave-Sustained Argon Discharge for Bio-Medical Applications”
Authors: E. Benova, P. Marinova, R. Tafradjiiska-Hadjiolova, Z. Sabit, D. Bakalov, et al.
Journal: Applied Sciences, Volume 12, Issue 3, Article 969, Year: 2022
Citations: 14

“Subcutaneous Arteriolar Vasomotion Changes During and After ELF-EMF Exposure in Mice in Vivo”
Authors: L. Traikov, A. Ushiyama, G. Lawlor, R. Sasaki, C. Ohkubo
Journal: Environmentalist, Volume 25, Pages 93-101, Year: 2005
Citations: 10

“Static magnetic field action on some markers of inflammation in animal model system—in vivo”
Authors: L. Traikov, K. Georgiev, A. Bocheva, E. Dzambazova, M. Markov
Journal: The Environmentalist, Volume 29, Pages 225-231, Year: 2009
Citations: 9

 Conclusion

Based on his academic achievements, technical skills, research expertise, and impactful contributions to biophysics and cellular biology, Assoc. Prof. Dr. Lubomir Traikov is a suitable candidate for the Research for Best Researcher Award. His dedication to advancing knowledge in biophysics, particularly concerning membrane dynamics and environmental impacts on cellular health, positions him as an innovator and leader in his field.

 

 

 

 

 

Alamgir khan | Particle physics | Young Scientist Award

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Mr. Alamgir khan | Particle physics | Young Scientist Award

Alamgir Khan is an accomplished physicist currently pursuing a Ph.D. at the International Islamic University Islamabad (IIUI), Pakistan, with a specialization in particle physics and high-energy physics. He obtained his MPhil in Physics in 2019 and his MSc in Physics in 2015, both from the University of Science and Technology (UST) in Bannu, Khyber Pakhtunkhwa, Pakistan. His academic journey began with a BSc in Physics from UST in 2012, following his intermediate education at FISE, Islamabad, where he achieved top distinctions in both F.Sc (2010) and SSC (2008).

PROFILE

Orcid Profile

Educational Details

Khan aims to leverage his educational background and research expertise in a challenging role where he can contribute to teaching, research, and scientific advancements, aspiring to make a significant impact in a reputable organization.

Research Interest: 

Khan’s research interests span particle physics, heavy-ion physics, quantum mechanics, detector physics, and collider physics. His professional skills include proficiency in various computational tools such as O2 software, FLUKA Monte Carlo simulations, Tsallis fitting functions, PYTHIA, EPOS-LHC, EPOS-1.99, and CERN Root. He is also adept in programming languages and software like C++, Python, and MS Office, as well as data analysis with Origin.

 

Top Notable Publications

Analysis of pT spectra for ϕ(1020)0 mesons in Cu–Au collisions at 200 GeV, using PYTHIA and Tsallis function

Journal: Chinese Journal of Physics

Publication Date: June 2024

DOI: 10.1016/j.cjph.2024.03.002

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Tsallis fits of K∗(892)0K^{*}(892)^{0} and ϕ(1020)0\phi (1020)^{0} mesons in p−Pbp-Pb collisions

Journal: The European Physical Journal Plus

Publication Date: January 25, 2024

DOI: 10.1140/epjp/s13360-023-04851-z