I was appointed to a tenureAssist Professor inNonlinearMathematics at Aristotle University of Thessaloniki in
September 2006. Currently, I am a Prof. in Applied Dynamical Systems at Aristotle University of Thessaloniki
(2018- now). Previously I was a Visiting Professor in the Department of Applied Mathematics at University of
Crete (2005-2006), a lecturer in the School of Mathematical Sciences at the Queen Mary College in September
(2003-2005), a lecturer of AppliedMathematics at the University of Loughborough (2000-2002) and University
of Leicester (2002-2003). I spent two years as an individual EU Marie Curie TMR Fellow-Categ 30 at DAMTP
Cambridge and at the University of Warwick (1998-2000). I obtained my PhD degree in Nonlinear Dynamics
at University of Patras (Greece) in June 1998 under the supervision of Prof. T. Bountis.
My mathematical contributions can be roughly divided into three main fields: (1) dynamical systems methods
and chaos for nonlinear Partial Differential Equations (PDEs) and lattices, (2) localized structure in nonlinear
dispersive wave equations and lattices. Integrable and near-integrable Systems. Applications in nonlinear
optics, discrete breathers, Parity-Symmetry in nonlinear systems, (3) geometry and dynamics of nonlinear
ODEs, applications in mathematical biology.
I was awarded an EPSRCgrant to employ a postdoc and four LMS-EPSRC Grants (International Visits). I was
a scientific organizer of LMS/EPSRCworkshop, Loughborough 4-5 July 2002. I have three years of teaching
experience at both postgraduate and undergraduate level. I have served the period of probation in Loughborough
University (2000-2002). I have provided more details of relevant training undertaken in my curriculum vitae,
which is included. Currently, I am co-investigator of IRSES-EU grant (260,000euros for the period 2013-2017)
and I am a member of main research group of two research grants funded by EU and Greek Research council
(up to 350,000 euros each grant).
I supervised two phd students. My first student works on dynamics of nonlinear lattices in metamaterials (Dr.
Agaoglou 2015) and the second on stability of solutions in Nonlinear Wave equations (Dr. Mylonas, 2016).
Основные публикации:
D.E.Pelinovsky and V.M. Rothos, “Bifurcations of travelling waves solutions in the discrete NLS equation”, Physica D., 202:1–2 (2005), 16–36
E. Doktorov, V. M. Rothos, Y. Kivshar, “Full-time dymanics of modulational instability in spinor Bose.Einstein condensates”, Phys Rev A., 76 (2007), 013626
P. Tsilifis, P. G. Kevrekidis, V. M. Rothos,, “Cubic-Quintic Long-Range Interactions With Double Well Potentials”, J. Phys. A, 47 (2014), 035201
M. Agaoglou, M. Feckan, M. Pospisil, V. M. Rothos, H. Susanto., “Travelling Waves in Nonlinear Magneto-inductive Lattices”, Journal of Differential Equations, 260 (2016), 1717–1746
V. M. Rothos, P. V. Vasilopoulos, A. Charalambopoulos, “Invariant Manifolds in the Second Order Maxwell Bloch Equations”, Nonlinear Systems and Complexity, 36 (2022), 71–101
В. М. Ротос, “Адиабатическая теория возмущений для векторного нелинейного уравнения Шредингера с ненулевыми граничными условиями”, ТМФ, 220:1 (2024), 164–190; V. M. Rothos, “Adiabatic perturbation theory for the vector nonlinear Schrödinger equation with nonvanishing boundary conditions”, Theoret. and Math. Phys., 220:1 (2024), 1201–1223
2023
2.
В. М. Ротос, И. К. Милонас, Т. Бунтис, “Диссипативная солитонная динамика в уравнении Ландау–Лифшица–Гильберта”, ТМФ, 215:2 (2023), 190–206; V. M. Rothos, I. K. Mylonas, T. Bountis, “Dissipative soliton dynamics of the Landau–Lifshitz–Gilbert equation”, Theoret. and Math. Phys., 215:2 (2023), 622–635