Full Professor at Nicolaus Copernicus University in Torun,Poland.
Prof. Slawomir Maciej Rybicki π΅π± is a distinguished mathematician specializing in topological nonlinear analysis, equivariant methods, and bifurcation theory. π With decades of contributions, he has advanced understanding of dynamical systems, variational problems, and celestial mechanics π through pioneering research and extensive international collaborations π. As Dean of the Faculty of Mathematics and Computer Science at Nicolaus Copernicus University (2012β2020), he shaped academic excellence and mentored numerous Ph.D. students π. His prolific publications, impactful grants, and global lectures highlight a career dedicated to solving complex mathematical challenges and inspiring future generations. π¬ His commitment to symmetry-breaking phenomena, periodic solutions, and differential equations continues to influence mathematics worldwide, making him a deserving candidate for the Best Researcher Award π
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Professional Profile
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π Education
Prof. Slawomir Maciej Rybicki π΅π± holds a strong academic foundation in pure mathematics. He earned his M.Sc. in Mathematics from Gdansk University in 1982, followed by a Ph.D. in Mathematics in 1991 under the supervision of Kazimierz Geba. He then achieved his Habilitation at Nicolaus Copernicus University in 1999, a mark of high scholarly distinction in Europe. π His rigorous training in differential equations, topology, and nonlinear analysis laid the groundwork for an influential career bridging advanced theoretical concepts and practical mathematical physics problems. His formal education reflects deep dedication to precision, logic, and developing novel mathematical methods. Today, his academic roots continue to inspire his extensive research and mentorship, demonstrating the transformative power of high-level education in mathematics. π¬β¨
πΌ Professional Experience
Prof. Rybickiβs professional journey spans over four decades of continuous academic contribution. Beginning as an Assistant at Gdansk University of Technology in the early 1980s, he steadily advanced through roles at the Polish Academy of Sciences and leading universities in Poland. π« By 2007, he became a Full Professor at Nicolaus Copernicus University in Torun, where he served as Dean of the Faculty of Mathematics and Computer Science from 2012 to 2020 β driving academic innovation, international collaboration, and faculty development. His roles have combined teaching, research, administration, and global engagement, with visiting professorships at prestigious institutions across Europe, Asia, the Americas, and Australia. π This sustained, diverse experience underscores his leadership and deep commitment to mathematical excellence. π§©
π¬ Research Interest
Prof. Rybickiβs research passion centers on topological methods and nonlinear analysis β especially the impact of symmetries in dynamical systems. βΎοΈ He specializes in equivariant degree theory, variational methods, and bifurcation analysis, with applications ranging from ordinary and partial differential equations to celestial mechanics and mathematical physics. π His groundbreaking work explores how symmetries influence existence, continuation, and stability of solutions in complex systems β addressing phenomena like symmetry breaking and periodic orbits in problems such as the Restricted Three-Body Problem and Hillβs Lunar Problem. By bridging abstract topology with real-world physical systems, he contributes new theoretical frameworks that advance multiple scientific domains. His research continues to inspire cross-disciplinary applications and push the boundaries of modern mathematics. πβ¨
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Awards and Honors
Prof. Rybickiβs career is distinguished by consistent recognition through prestigious research grants from Polandβs Ministry of Science and Higher Education, funding his innovative work from 1991 to 2015. π‘ His leadership as Dean at Nicolaus Copernicus University further demonstrates institutional trust and respect for his academic vision. π Numerous invitations as a visiting professor to leading universities β including Sydney University, Yokohama National University, and the University of Texas at Dallas β reflect global recognition of his expertise and contributions to nonlinear analysis and dynamical systems. π His prolific presence at international conferences and his role in collaborative research networks further highlight peer acknowledgment. Such honors underscore his influence as a global scholar and mentor dedicated to advancing mathematics. π₯
π§ Research Skills
Prof. Rybicki excels in advanced mathematical modeling, topological methods, and variational analysis. 𧩠His mastery of equivariant degree theory enables him to tackle complex symmetry-related challenges in nonlinear differential equations and dynamical systems. π¬ He skillfully applies abstract topology to real-world problems in physics and celestial mechanics, demonstrating an exceptional ability to translate theory into practical insight. π His collaborative skills are evident through multi-institutional research, cross-border projects, and extensive co-authorship. He is also adept at securing competitive research grants and guiding Ph.D. candidates through rigorous research training. His unique combination of theoretical depth, analytical precision, and mentorship capability makes him a pillar in the global mathematical community. πβ¨
π Publications Top Note π
Title: Generalization of Lyapunov center theorem for Hamiltonian systems via normal forms theory
Authors: A. Golebiewska, S. Rybicki
Year: 2025
Source: Journal of Differential Equations
Citation: Journal Differential Equations 421, 241β263
Title: Bifurcation of closed orbits from equilibria of Newtonian systems with Coriolis forces
Authors: A. Golebiewska, E. PΓ©rez-Chavela, S. Rybicki, A. J. UreΓ±a
Year: 2022
Source: Journal of Differential Equations
Citation: Journal Differential Equations 338, 441β473
Title: Periodic solutions to symmetric Newtonian systems in neighborhoods of orbits of equilibria
Authors: A. Golebiewska, M. Kowalczyk, S. Rybicki, P. Stefaniak
Year: 2022
Source: Electronic Research Archive
Citation: Electronic Research Archive 30 (5), 1691β1707
Title: Connected sets of solutions of symmetric elliptic systems
Authors: A. Golebiewska, S. Rybicki, P. Stefaniak
Year: 2021
Source: Nonlinear Analysis: Theory, Methods & Applications
Citation: Nonlinear Analysis 202, Paper No. 112124
Title: Symmetric Lyapunov center theorem for orbit with nontrivial isotropy group
Authors: M. Kowalczyk, E. Perez-Chavela, S. Rybicki
Year: 2020
Source: Advances in Differential Equations
Citation: Advances in Differential Equations 25 (1β2), 1β30
Title: Global symmetry-breaking bifurcations of critical orbits of invariant functionals
Authors: A. Golebiewska, N. Hirano, S. Rybicki
Year: 2019
Source: Discrete and Continuous Dynamical Systems Series S
Citation: DCDS Series S 12 (7), 2005β2017
Title: Rabinowitz alternative for non-cooperative elliptic systems on geodesic balls
Authors: S. Rybicki, N. Shioji, P. Stefaniak
Year: 2018
Source: Advanced Nonlinear Studies
Citation: Advanced Nonlinear Studies 18 (4), 845β862
Title: Symmetric Liapunov center theorem for minimal orbit
Authors: E. Perez-Chavela, S. Rybicki, D. Strzelecki
Year: 2018
Source: Journal of Differential Equations
Citation: Journal Differential Equations 265 (3), 752β778
Title: Multiple existence of symmetry breaking solutions to a nonlinear SchrΓΆdinger equation with a magnetic potential
Authors: N. Hirano, S. Rybicki
Year: 2017
Source: Journal of Nonlinear and Convex Analysis
Citation: Journal Nonlinear and Convex Analysis 18 (8), 1563β1569
Title: Conley index in Hilbert spaces versus the generalized topological degree
Authors: Z. Blaszczyk, A. Golebiewska, S. Rybicki
Year: 2017
Source: Advances in Differential Equations
Citation: Advances in Differential Equations 22 (11β12), 963β982
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Conclusion
Prof. Slawomir Maciej Rybicki embodies the essence of a leading mathematician, blending rigorous theory with practical impact and global collaboration. π His robust academic training, diverse professional experience, pioneering research on symmetry in dynamical systems, and commitment to mentoring future scholars illustrate a remarkable legacy. π From advanced topology to celestial mechanics, his work not only enriches pure mathematics but also influences fields like physics and engineering. His international presence, trusted leadership, and unwavering dedication position him as an ideal candidate for the Best Researcher Award. π
Prof. Rybickiβs contributions exemplify sustained academic excellence and continue to inspire new generations to expand the frontiers of mathematics. πβ¨