Zoriana Danel | Mathematical Physics | Best Researcher Award

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Assoc. Prof. Dr. Zoriana Danel | Mathematical Physics | Best Researcher Award

WIMiF at Cracow University of Technology, Poland

Dr. Zoriana Danel (formerly Zoryana Usatenko) is an accomplished physicist with a distinguished career in theoretical and condensed matter physics. Born in Lviv in 1968, she earned her Ph.D. in Physics and Mathematics from the Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine and later completed her habilitation at Jagiellonian University in Poland. Currently an Associate Professor with Habilitation at the Faculty of Materials Engineering and Physics, Cracow University of Technology, she has an extensive background in soft matter physics, polymer physics, statistical physics, and biophysics. Dr. Danel has held numerous prestigious international fellowships, including from the von Humboldt Foundation and DAAD, and has contributed to various international research collaborations. A prolific speaker and author, she has presented at major conferences across Europe and Asia and published extensively. Fluent in multiple languages, she is also actively engaged in academic supervision and peer review.

Professional Profile 

Scopus Profile
ORCID Profile

Education

Dr. Zoriana Danel began her academic journey in physics with a strong foundation in Lviv, Ukraine. She obtained her Ph.D. in Physics and Mathematics in 1996 from the Institute for Condensed Matter Physics at the National Academy of Sciences of Ukraine, under the mentorship of Prof. I.V. Stasyuk. Her doctoral research focused on statistical theories related to condensed matter systems. Recognizing her growing expertise, she pursued and successfully completed her Habilitation (D.Sc.) in 2014 at the Jagiellonian University in Kraków, Poland, further solidifying her academic authority in theoretical and condensed matter physics. Her postdoctoral development included prestigious fellowships in Germany, enabling her to work under top international scholars and expand her research network. With a strong academic background shaped by institutions known for their scientific rigor, Dr. Danel has built an interdisciplinary and globally informed scientific profile, seamlessly integrating education, research, and international collaboration throughout her academic evolution.

Professional Experience

Dr. Zoriana Danel has accumulated a wealth of professional experience across esteemed institutions in Ukraine, Poland, and Germany. Early in her career, she contributed as a researcher at the Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine, where she honed her skills in statistical physics and soft matter theory. Following her habilitation, she joined the Faculty of Materials Engineering and Physics at the Cracow University of Technology in Poland, where she currently serves as an Associate Professor with Habilitation. Her academic duties include supervising master’s and doctoral theses, mentoring early-career researchers, and developing physics curricula. Dr. Danel has also held prestigious research fellowships and visiting professorships in institutions across Germany, including positions supported by the Alexander von Humboldt Foundation and the DAAD. Through her roles in academia and international research, she has consistently bridged theoretical development with practical applications, cultivating an impactful and respected academic career.

Research Interest

Dr. Zoriana Danel’s research interests are both broad and deeply specialized, reflecting her expertise in theoretical physics and her interdisciplinary approach. She focuses primarily on soft matter physics, polymer physics, and statistical physics, with particular emphasis on the theoretical modeling of complex systems. Her studies often address the behavior of polymers in disordered environments, confined geometries, and the influence of fractal structures on macromolecular dynamics. She also engages in biophysical research, examining biological polymers and their interaction with cellular structures. Using tools from statistical mechanics and field theory, Dr. Danel investigates how environmental constraints and topological factors affect the behavior of macromolecules, such as DNA and synthetic polymers. Her work contributes significantly to understanding nanoscale phenomena and the physics of self-organization. By connecting theoretical insights to experimental observations, she has fostered collaborations with material scientists, chemists, and biophysicists, thereby advancing interdisciplinary research with potential applications in nanotechnology and biotechnology.

Award and Honor

Throughout her career, Dr. Zoriana Danel has been the recipient of numerous prestigious awards and fellowships that underscore her international recognition and scientific excellence. Most notably, she has received a fellowship from the Alexander von Humboldt Foundation in Germany, a testament to the global impact of her research in physics. She has also been a recipient of multiple DAAD fellowships, which supported her scientific work at German institutions and fostered valuable international collaboration. In addition, Dr. Danel was selected as a visiting researcher at top-tier German universities, such as the Technical University of Munich and Heinrich Heine University Düsseldorf. Her contributions to theoretical physics and interdisciplinary studies have consistently been acknowledged through invitations to present at international conferences and by peer-reviewed journals where she serves as a reviewer. These accolades reflect her sustained excellence in research, her dedication to scientific progress, and her leadership within the international academic community.

Conclusion

Dr. Zoriana Danel is a distinguished physicist whose career exemplifies academic rigor, international collaboration, and scientific innovation. With a strong foundation in theoretical and condensed matter physics, she has expanded her expertise into soft matter, biophysics, and interdisciplinary research. Her educational journey, marked by a Ph.D. from Ukraine and habilitation in Poland, and professional engagements across leading European institutions, highlight her adaptability and influence. Through her pioneering research on polymers in complex environments and her contributions to statistical physics, she continues to push the boundaries of modern theoretical understanding. Dr. Danel’s accolades, including the Humboldt and DAAD fellowships, further affirm her global standing. Beyond her research, she is a dedicated educator and mentor, shaping the next generation of physicists. Her career is a model of how scientific curiosity, rigorous scholarship, and international engagement can converge to make a lasting impact in both academia and applied science.

Publications Top Notes

  • Title: Analytical and Numerical Investigation of Star Polymers in Confined Geometries
    Authors: Zoriana Danel, Joanna Halun, Paweł Karbowniczek
    Year: 2024
    Source: International Journal of Molecular Sciences
    DOI: 10.3390/ijms25179561

  • Title: Entropic Force in a Dilute Solution of Real Ring Polymer Chains with Different Topological Structures in a Slit of Two Parallel Walls with Mixed Boundary Conditions
    Authors: Piotr Kuterba, Zoriana Danel, Wolfhard Janke
    Year: 2023
    Source: Condensed Matter Physics
    DOI: 10.5488/cmp.26.43605

  • Title: Molecular Dynamics Simulations of the Monomer Density Profiles of Knotted Ring Polymer Chains Confined in a Slit of Two Parallel Walls with One Attractive and Another Repulsive Surface
    Authors: P. Kuterba, H. Christiansen, Z. Danel, W. Janke
    Year: 2023
    Source: Journal of Physics: Conference Series
    DOI: 10.1088/1742-6596/2436/1/012031

  • Title: Investigation of Ring and Star Polymers in Confined Geometries: Theory and Simulations
    Authors: Zoriana Danel
    Year: 2021
    Source: Entropy
    DOI: 10.3390/e23020242

  • Title: Photoelectrical Properties and Surface Examination of Luminescent Copolymer Compounds
    Authors: Zoriana Danel
    Year: 2020
    Source: Applied Surface Science
    DOI: 10.1016/j.apsusc.2020.147366

  • Title: Investigations of the Optical and Thermal Properties of the Pyrazoloquinoline Derivatives and Their Application for OLED Design
    Authors: Zoriana Danel
    Year: 2020
    Source: Polymers
    DOI: 10.3390/polym12112707

  • Title: Corrigendum to “Monomer Density Profiles of Real Polymer Chains in Confined Geometries”
    Authors: Zoriana Danel
    Year: 2020
    Source: Journal of Molecular Liquids
    DOI: 10.1016/j.molliq.2019.112066

  • Title: Erratum: “Monomer Density Profiles for Polymer Chains in Confined Geometries: Massive Field Theory Approach”
    Authors: Zoriana Danel
    Year: 2019
    Source: The Journal of Chemical Physics
    DOI: 10.1063/1.5120038

  • Title: Ring Polymer Chains Confined in a Slit Geometry of Two Parallel Walls: The Massive Field Theory Approach
    Authors: Zoriana Danel
    Year: 2017
    Source: Journal of Statistical Mechanics: Theory and Experiment
    DOI: 10.1088/1742-5468/aa5285

  • Title: Polymer Chains in Confined Geometries: Massive Field Theory Approach
    Authors: Zoriana Danel
    Year: 2009
    Source: Physical Review E
    DOI: 10.1103/physreve.80.041802

 

Huihui Song | Mathematical Physics | Best Researcher Award

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Prof. Huihui Song | Mathematical Physics | Best Researcher Award

Vice Dean at Harbin Institute of Technology (Weihai), China

Dr. Song Huihui is a distinguished professor, doctoral supervisor, and Associate Dean at the School of New Energy, Harbin Institute of Technology (Weihai). She is an esteemed member of several technical committees, including the IEEE PES China Technical Committee and the China Society for Electrical Engineering. Her research focuses on renewable energy integration, microgrid and smart grid control, and distributed power network technologies. She has led multiple national and provincial research projects, securing significant funding and contributing groundbreaking work in grid synchronization, energy storage, and zero-carbon village systems. Dr. Song has authored numerous high-impact SCI Q1 journal publications and an academic monograph. Her contributions have earned her prestigious national and provincial research awards, including the Science and Technology Progress Award. With her expertise in power system automation and energy control technologies, Dr. Song continues to drive innovation in the sustainable energy sector, shaping the future of smart and resilient power networks.

Professional Profile 

Scopus Profile

Education

Dr. Song Huihui holds a Ph.D. in electrical engineering, specializing in renewable energy integration and power system control. Her academic journey has been marked by rigorous training in energy systems, control mechanisms, and smart grid technologies. She has cultivated a deep understanding of distributed power networks, microgrid operation, and grid synchronization techniques. With a strong foundation in theoretical and applied research, she has developed expertise in optimizing large-scale renewable energy systems. Her education has been complemented by international collaborations, participation in high-profile research exchanges, and contributions to cutting-edge advancements in energy management. The knowledge and skills acquired during her doctoral and postdoctoral studies have laid the groundwork for her successful career in academia and research. Dr. Song’s academic achievements have enabled her to lead multiple national and international projects, mentor young researchers, and make significant contributions to the evolving landscape of sustainable energy technologies.

Professional Experience

Dr. Song Huihui is a professor, doctoral supervisor, and Associate Dean at the School of New Energy, Harbin Institute of Technology (Weihai). She has held key leadership roles in technical committees, including the IEEE PES China Technical Committee and the China Society for Electrical Engineering. With extensive experience in power system automation and renewable energy research, she has led numerous government-funded and industry-supported projects, addressing challenges in smart grid operation, distributed control, and energy storage. Dr. Song has collaborated with leading institutions and corporations, contributing to large-scale power system innovations and developing solutions for efficient grid integration of renewable energy sources. Her professional career spans academia, industrial partnerships, and policy-oriented research, making her a prominent figure in the field. She actively mentors graduate students, supervises doctoral research, and serves as a young editor for “Electric Power Construction,” furthering her impact on the next generation of energy researchers and professionals.

Research Interest

Dr. Song Huihui’s research focuses on large-scale renewable energy integration, microgrid and smart grid control, distributed energy systems, and energy storage technologies. She explores cutting-edge solutions for grid synchronization, rhythm-based power control, and intelligent control mechanisms to optimize energy networks. Her work emphasizes the development of advanced algorithms for decentralized power distribution, blockchain-enabled energy trading, and artificial intelligence applications in energy management. She is also actively involved in designing zero-carbon village models and multi-energy complementary systems for sustainable urban development. With an interdisciplinary approach, Dr. Song collaborates with researchers in electrical engineering, artificial intelligence, and environmental science to enhance the reliability and resilience of modern power grids. Her contributions to the field have resulted in high-impact publications in SCI Q1 journals, as well as patents and technological advancements that drive the future of smart and efficient energy networks.

Awards and Honors

Dr. Song Huihui has received numerous prestigious awards and honors in recognition of her contributions to energy research and technology development. She has been honored with the National First Prize for Science and Technology Progress by the China Safety Production Association and the China General Chamber of Commerce for her work on distributed photovoltaic microgrid safety systems. Additionally, she has received the Provincial First Prize for Science and Technology Innovation from Yunnan Province for her research on wind energy utilization in complex terrains. Her achievements extend beyond individual recognition, as her collaborative projects have been instrumental in shaping the future of renewable energy and grid stability. These accolades reflect her expertise, leadership, and dedication to advancing energy systems through innovative technologies. As a respected academic and researcher, Dr. Song continues to push the boundaries of sustainable energy solutions, earning national and international recognition for her pioneering work.

Conclusion

Dr. Song Huihui is a highly accomplished researcher, educator, and innovator in the field of renewable energy and power system automation. With a strong academic background, extensive professional experience, and groundbreaking research contributions, she has established herself as a leader in energy control technologies. Her work on grid synchronization, smart grid operations, and zero-carbon energy systems has made a significant impact on the industry and academia. Through her mentorship, publications, and leadership roles in technical committees, she continues to shape the future of sustainable energy. Her numerous awards and honors are a testament to her influence in the field. With an unwavering commitment to advancing energy technologies, Dr. Song is poised to further revolutionize smart and resilient power networks. Her work not only contributes to technological innovation but also plays a vital role in addressing global energy challenges and promoting sustainable development.

Publications Top Noted 

  • SmartGuard: An LLM-Enhanced Framework for Smart Contract Vulnerability Detection
    Authors: Hao Ding, Yizhou Liu, Xuefeng Piao, Huihui Song, Zhenzhou Ji
    Year: 2025
    Source: SSRN
    Link: papers.ssrn.com

  • Optimal Scheduling Strategy for Microgrid Considering the Support Capabilities of Grid Forming Energy Storage
    Authors: Zhibin Yan, Li Li, Peng Yang, Bin Che, Panlong Jin
    Year: 2025
    Source: Electric Power
    Link: mdpi.com

  • Energy-Shaping Control Strategy and Control Parameter Tuning of Cascaded H-Bridge Grid-Connected Inverter
    Authors: Chaodong Li, Manyuan Ye, Yan Ran, Huihui Song
    Year: 2025
    Source: Proceedings of the Chinese Society of Electrical Engineering
    Link: Springer Professional

  • Voltage Control Strategy of Grid Forming Parallel Inverters Based on Virtual Oscillator Control Under Islanded Mode
    Authors: Shitao Wang, Fangzheng Guo, Li Li, Huihui Song, Jingwei Li
    Year: 2025
    Source: Electric Power Automation Equipment
    Link: Nature

  • Energy Storage Configuration and Scheduling Strategy for Microgrid with Consideration of Grid-Forming Capability
    Authors: Zhibin Yan, Li Li, Weimin Wu, Bin Che, Panlong Jin
    Year: 2025
    Source: Electrical Engineering
    Link: Springer Professional

  • Distributed Secondary Control Strategy for the Islanded DC Microgrid Based on Virtual DC Machine Control
    Authors: Li Li, Zhiquan Wu, Haiyu Zhang, Lin Zhu, Huihui Song
    Year: 2025
    Source: Journal of Applied Science and Engineering
    Link: mdpi.com

  • A Fuzzy Hierarchical Selection Method for an Energy Storage Multi Scenario Interval Based on Maximum Evaluation Difference
    Authors: Caijuan Qi, Muyuan Li, Yichen Wu, Yi Wang, Huihui Song
    Year: 2024
    Source: Power System Protection and Control
    Link: Stet Review

  • Application of Energy Shaping Control in New Energy Systems

    • Authors: Song Huihui, Qu Yanbin, Hou Rui
    • Year: 2023
    • Source: Harbin Institute of Technology Press

  • Decentralized Secondary Frequency Control of Autonomous Microgrids via Adaptive Robust-Gain Performance

    • Authors: Jiayi Liu, Huihui Song*, Chenyue Chen, Josep M. Guerrero, Meng Liu, Yanbin Qu
    • Year: 2024
    • Source: IEEE Transactions on Smart Grid

  • Low-Frequency Oscillations in Coupled Phase Oscillators with Inertia

    • Authors: Song Huihui, Zhang Xuewei, Wu Jinfeng, Qu Yanbin
    • Year: 2019
    • Source: Scientific Reports (Nature.com)

  • Frequency Second Dip in Power Unreserved Control During Wind Power Rotational Speed Recovery

    • Authors: Liu Kangcheng, Qu Yanbin, Kim Hak-man, Song Huihui*
    • Year: 2017
    • Source: IEEE Transactions on Power Systems

  • A Blockchain-Enabled Trading Framework for Distributed Photovoltaic Power Using Federated Learning

    • Authors: Xuefeng Piao, Hao Ding, Huihui Song*, Meng Liu, Song Gao
    • Year: 2024
    • Source: International Journal of Energy Research

  • Global Stability Analysis for Coupled Control Systems and Its Application: Practical Aspects and Novel Control

    • Authors: Liu Jiayi, Jiang Shuaihao, Qu Yanbin, Zhang Xuewei, Song Huihui*
    • Year: 2021
    • Source: Journal of the Franklin Institute

  • Crowbar Resistance Value-Switching Scheme Conjoint Analysis Based on Statistical Sampling for LVRT of DFIG

    • Authors: Y.B. Qu, L. Gao, G.F. Ma, H.H. Song*, S.T. Wang
    • Year: 2019
    • Source: Journal of Modern Power Systems and Clean Energy

  • Graph Theory-Based Approach for Stability Analysis of Stochastic Coupled Oscillators System by Energy-Based Synchronization Control

    • Authors: Huaqiang Zhang, Xiangzhong Du, Jiayi Liu, Hak-Man Kim, Huihui Song*
    • Year: 2020
    • Source: Journal of the Franklin Institute

  • Global Stability Analysis for Coupled Control Systems and Its Application: Practical Aspects and Novel Control

    • Authors: Liu J., Jiang S., Qu Y., Zhang X.W., Song H.H.*
    • Year: 2021
    • Source: Journal of the Franklin Institute

  • Transient Stability Analysis and Enhanced Control Strategy for Andronov-Hopf Oscillator Based Inverters

    • Authors: Li Li, Huihui Song, Shitao Wang, Meng Liu, Song Gao, Haoyu Li, Josep M. Guerrero
    • Year: 2024
    • Source: IEEE Transactions on Energy Conversion

 

Thomas Kotoulas | Mathematical Physics | Best Researcher Award

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Dr. Thomas Kotoulas | Mathematical Physics | Best Researcher Award

Researcher at Aristotle University of Thessaloniki, Greece.

Dr. Thomas Kotoulas is a distinguished researcher specializing in Newtonian Dynamics and Celestial Mechanics, with a prolific academic record comprising 41 refereed journal articles, including 18 monographs. His research spans critical areas such as the restricted three-body problem, periodic orbit computation, symplectic mapping models, and inverse problems in Newtonian dynamics, with applications in astronomy and galactic dynamics. He has been actively involved in funded research projects and received prestigious fellowships, including one from the National Foundation of Fellowships (I.K.Y.). Recognized for his outstanding peer-review contributions, he has been awarded the Outstanding Reviewer Award by Research in Astronomy and Astrophysics and acknowledged by Astrophysics and Space Science. He has reviewed for 13 international journals and contributed to Mathematical Reviews. With his extensive work in celestial mechanics, his expertise plays a crucial role in understanding planetary and asteroid dynamics, making him a strong candidate for the Best Researcher Award.

Professional Profile 

Google Scholar

Education

Dr. Thomas Kotoulas holds a B.Sc. in Physics from the Aristotle University of Thessaloniki (A.U.Th.), where he graduated with a very good distinction (7.71/10) in 1995. He pursued his Ph.D. in Celestial Mechanics and Dynamical Systems at the same institution, completing his thesis, “Dynamical evolution of small bodies at resonant areas in the Outer Solar System”, in 2003 with highest honors (Excellent). During his doctoral studies, he was awarded a fellowship from the National Foundation of Fellowships (I.K.Y.), recognizing his academic excellence. His postdoctoral research included significant contributions to the study of the restricted three-body problem, funded by the Greek Ministry of Education and the European Community. His educational background, rooted in classical physics, dynamical systems, and celestial mechanics, laid the foundation for his impactful career in Newtonian dynamics, orbital mechanics, and inverse problems in physics, with direct applications in astronomy and galactic dynamics.

Professional Experience

Dr. Kotoulas has built an impressive career in celestial mechanics and dynamical systems, contributing extensively through research, peer review, and mentorship. He has worked as a postdoctoral researcher for over five years, with projects focusing on the dynamics of the restricted three-body problem and applications in asteroid and Kuiper Belt studies. His professional journey includes participation in the EPEAEK II PYTHAGORAS research project, where he played a key role in modeling planetary resonances. He has been a reviewer for over 13 prestigious scientific journals, including Celestial Mechanics and Dynamical Astronomy, Astronomy and Astrophysics, and Monthly Notices of the Royal Astronomical Society (MNRAS). Additionally, he has authored 41 research papers, 18 of which are monographs, showcasing his expertise in orbital stability, periodic orbits, and inverse problems. His experience solidifies his reputation as a leading figure in Newtonian dynamics and celestial mechanics.

Research Interests

Dr. Kotoulas’ research is deeply rooted in Newtonian dynamics, celestial mechanics, and inverse problems in physics, with a strong focus on planetary motion, asteroid dynamics, and resonance stability. His work on the restricted three-body problem involves studying periodic orbits, resonance phenomena, and dynamical stability, with applications in asteroid belt studies, planetary migration, and Kuiper Belt dynamics. He has also made significant contributions to the inverse problem of Newtonian dynamics, using differential equations to reconstruct gravitational force fields from observed orbital data. His research integrates mathematical modeling, computational methods, and astrophysical applications, contributing to a deeper understanding of planetary system evolution. Additionally, his expertise in symplectic mapping models, spectral analysis of orbits, and stability analysis has provided new insights into long-term orbital behaviors and galactic dynamics, positioning him as a key contributor to the field of astrodynamics and dynamical astronomy.

Awards and Honors

Dr. Kotoulas has received numerous awards and distinctions for his contributions to celestial mechanics and dynamical astronomy. He was recognized as one of the best external reviewers by Research in Astronomy and Astrophysics in 2022, earning the Outstanding Reviewer Award. Additionally, he received formal recognition from Astrophysics and Space Science for his invaluable peer-review contributions. His research excellence has been acknowledged through a prestigious fellowship from the National Foundation of Fellowships (I.K.Y.), awarded during his Ph.D. studies. His dedication to advancing celestial mechanics is further reflected in his role as a registered reviewer for Mathematical Reviews, where he has contributed expert evaluations of influential research papers. These honors underscore his exceptional impact in the field, his commitment to scientific integrity, and his standing as a respected researcher in Newtonian dynamics and astrophysics.

Conclusion

Dr. Thomas Kotoulas is a renowned researcher in celestial mechanics, Newtonian dynamics, and inverse problems in physics, with an extensive academic, research, and professional portfolio. His contributions to orbital stability, planetary resonance, and dynamical system modeling have provided valuable insights into planetary and asteroid motion. With 41 research publications, 18 monographs, multiple fellowships, and prestigious reviewer awards, he has established himself as a leading figure in astrophysical research. His dedication to advancing celestial mechanics, combined with his active role in peer review and academic mentorship, makes him a highly deserving candidate for the Best Researcher Award. His work continues to shape the understanding of orbital mechanics and planetary system evolution, reinforcing his position as a respected scientist in the field of dynamical astronomy and mathematical physics.

Publications Top Noted

  • Planar periodic orbits in exterior resonances with Neptune

    • Authors: G. Voyatzis, T. Kotoulas
    • Year: 2005
    • Citations: 44
    • Source: Planetary and Space Science, 53(11), 1189-1199

  • Comparative study of the 2:3 and 3:4 resonant motion with Neptune: an application of symplectic mappings and low-frequency analysis

    • Authors: T. Kotoulas, G. Voyatzis
    • Year: 2004
    • Citations: 43
    • Source: Celestial Mechanics and Dynamical Astronomy, 88, 343-363

  • On the stability of the Neptune Trojans

    • Authors: R. Dvorak, R. Schwarz, Á. Süli, T. Kotoulas
    • Year: 2007
    • Citations: 33
    • Source: Monthly Notices of the Royal Astronomical Society, 382(3), 1324-1330

  • Symmetric and nonsymmetric periodic orbits in the exterior mean motion resonances with Neptune

    • Authors: G. Voyatzis, T. Kotoulas, J.D. Hadjidemetriou
    • Year: 2005
    • Citations: 31
    • Source: Celestial Mechanics and Dynamical Astronomy, 91, 191-202

  • On the 2/1 resonant planetary dynamics – periodic orbits and dynamical stability

    • Authors: G. Voyatzis, T. Kotoulas, J.D. Hadjidemetriou
    • Year: 2009
    • Citations: 30
    • Source: Monthly Notices of the Royal Astronomical Society, 395(4), 2147-2156

  • Resonant periodic orbits of trans-Neptunian objects

    • Authors: T.A. Kotoulas, J.D. Hadjidemetriou
    • Year: 2002
    • Citations: 22
    • Source: Earth, Moon, and Planets, 91, 63-93

  • Three-dimensional periodic orbits in exterior mean motion resonances with Neptune

    • Authors: T.A. Kotoulas, G. Voyatzis
    • Year: 2005
    • Citations: 21
    • Source: Astronomy & Astrophysics, 441(2), 807-814

  • Homogeneous two-parametric families of orbits in three-dimensional homogeneous potentials

    • Authors: G. Bozis, T.A. Kotoulas
    • Year: 2005
    • Citations: 21
    • Source: Inverse Problems, 21(1), 343

  • Planar retrograde periodic orbits of the asteroids trapped in two-body mean motion resonances with Jupiter

    • Authors: T. Kotoulas, G. Voyatzis
    • Year: 2020
    • Citations: 20
    • Source: Planetary and Space Science, 182, 104846

  • On the bifurcation and continuation of periodic orbits in the three-body problem

    • Authors: K.I. Antoniadou, G. Voyatzis, T. Kotoulas
    • Year: 2011
    • Citations: 20
    • Source: International Journal of Bifurcation and Chaos, 21(08), 2211-2219

  • Three-dimensional potentials producing families of straight lines (FSL)

    • Authors: G. Bozis, T.A. Kotoulas
    • Year: 2004
    • Citations: 19
    • Source: Rendiconti del Seminario della Facoltà di Scienze dell’Università di …

  • The dynamics of the 1:2 resonant motion with Neptune in the 3D elliptic restricted three-body problem

    • Authors: T.A. Kotoulas
    • Year: 2005
    • Citations: 17
    • Source: Astronomy & Astrophysics, 429(3), 1107-1115

  • Retrograde periodic orbits in 1/2, 2/3 and 3/4 mean motion resonances with Neptune

    • Authors: T. Kotoulas, G. Voyatzis
    • Year: 2020
    • Citations: 15
    • Source: Celestial Mechanics and Dynamical Astronomy, 132 (6-7), 33

  • Two-parametric families of orbits in axisymmetric potentials

    • Authors: T.A. Kotoulas, G. Bozis
    • Year: 2006
    • Citations: 12
    • Source: Journal of Physics A: Mathematical and General, 39(29), 9223

  • Construction of 3D potentials from a preassigned two-parametric family of orbits

    • Authors: M.C. Anisiu, T.A. Kotoulas
    • Year: 2006
    • Citations: 11
    • Source: Inverse Problems, 22(6), 2255

  • The dynamical stability of a Kuiper Belt-like region

    • Authors: A. Celletti, T. Kotoulas, G. Voyatzis, J. Hadjidemetriou
    • Year:
    • Citations: 10
    • Source: Monthly Notices of the Royal Astronomical Society, 378(3), 1153-1164