Chaotic advection in the ocean

Chaotic advection of passive scalars in kinematic models of topographic eddies and meandering jet currents

Chaotic advection of passive scalars in dynamic models of zonal jet currents with Rossby waves in the ocean and atmosphere

Study of transport barriers and their destruction in jet currents in the ocean and atmosphere

Anomalous zonal transport, fractals, dynamic traps, unstable periodic orbits and invariant manifolds in fluid flows

2004

1. M. Budyansky, M. Uleysky, S. Prants. Hamiltonian fractals and chaotic scattering by a topographical vortex and an alternating current. Physica D 195 (2004) P.369-378. doi:10.1016/j.physd.2003.11.013

2. M.V. Budyansky, M.Yu. Uleysky, S.V. Prants. Chaotic scattering, transport, and fractals  in a simple hydrodynamic flow. J. Exp. Theor. Phys. V.99 N5 (2004) 1018-1027. [ZhETP. V.126 N5(11) (2004) 1167-1179] DOI: 10.1134/1.1842883

2006

1. D.V. Makarov, M.Yu. Uleysky, M.V. Budyansky, and S.V. Prants. Clustering in randomly-driven Hamiltonian systems. Physical Review E. V.73 (2006) art.no 066210. DOI: 10.1103/PhysRevE.73.066210

2. S.V. Prants, M.V. Budyansky, M.Yu. Uleysky, and G.M. Zaslavsky. Chaotic mixing and transport in a meandering jet flow. Chaos. V.16  (2006) art.no 033117. doi:10.1063/1.2229263

3. K.V. Koshel and S.V. Prants. Chaotic advection in the ocean. Physics -- Uspekhi. V.49 N11. (2006) P.1151-1178 [Uspekhi Fisicheskikh Nauk. V.176. N11 (2006) 1178-1206] DOI: 10.1070/PU2006v049n11ABEH006066

2007

1. M.Yu. Uleysky, M.V. Budyansky, and S.V. Prants. 8 Effect of dynamical traps on chaotic transport in a meandering jet flow. Chaos. V.17. Is.4 (2007)  art. no. 024703. doi:10.1063/1.2783258

2008

1. K.V. Koshel and S.V. Prants. Chaotic advection in the ocean.  Institute of Computer Science: Moscow-Izhevsk, 2008, 358 p.  (in Russian).

2. M.Yu. Uleysky, M.V. Budyansky, S.V. Prants. Genesis and bifurcations of unstable periodic orbits in a jet flow. Journal of Physics A: Math. Theor. V. 41 (2008) 215102. doi: 10.1088/1751-8113/41/21/215102

2009

1. M.V. Budyansky, M.Yu. Uleysky, and S.V. Prants. Detecting barriers to cross-jet Lagrangian transport and its destruction in a meandering flow. Physical Review E. V.79 N5 (2009) art. no 056215. DOI: 10.1103/PhysRevE.79.056215

2010

1. M.Yu. Uleysky, M.V. Budyansky, and S.V. Prants. Mechanism of destruction of the transport barriers in geophysical jets with Rossby waves. Physical Review E. V.81 (2010) art. no 017202. DOI: 10.1103/PhysRevE.79.056215

2. M.Yu. Uleysky, M.V. Budyansky, S.V. Prants. Chaotic cross-jet transport in two dimensional flows. J. Exper. Theor. Phys.  (2010) [ZhETF (2010)].

2011

1. M.V. Budyansky, V.I. Ponomarev, P.A. Fyman, M.Yu. Uleysky and S.V.Prants. Lagrangian approach to chaotic transport and mixing in theJapan Sea. Chaos Theory: Modeling, Simulation and Applications. Selected Papers from the 3rd Chaotic Modeling and Simulation International Conference (CHAOS2010) (eds. C.H. Skiadas, I. Dimotikalis,C. Skiadas). Singapore: World Scientific. P.3-13. 2011. 468p. http://eproceedings.worldscinet.com/9789814350341/toc.shtml

2. S.V. Prants, M.V. Budyansky, V.V. Ponomarev, M.Yu. Uleysky. Lagrangian study of transport and mixing in a mesoscale eddy street. Ocean modelling. V. 38, Is. 1-2 (2011) 114-125. DOI: 10.1016/j.ocemod.2011.02.00

3. S.V. Prants, V.I. Ponomarev, M.V. Budyansky, M.Yu. Uleysky, P.A. Fayman. Lagrangian analysis of mixing and transport of water masses in marine bays // Izvestiya, Atmospheric and Oceanic Physics 2012 (in press).

2012

1. S.V. Prants, M.V. Budyansky, M.Yu. Uleysky. Lagrangian tools to monitor transport and mixing in the ocean. In: CHAOS, COMPLEXITY AND TRANSPORT. Selected Papers from the International Conference (eds. Xavier Leoncini & Marc Leonetti). Singapore: World Scientific. P.33-46. 2012. DOI: 10.1142/9789814405645_0004

2. S.V. Prants, M.Yu. Uleysky, M.V. Budyansky. Lagrangian Coherent Structures in the Ocean Favorable for Fishery. Doklady Earth Sciences, 2012, Vol. 447, Part 1, pp. 1269-1272.

2. S.V. Prants, M.Yu. Uleysky, M.V. Budyansky. Lagrangian Coherent Structures in the Ocean Favorable for Fishery. Doklady Earth Sciences, 2012, Vol. 447, Part 1, pp. 1269-1272.

2013

1. S. V. Prants, V. I. Ponomarev, M. V. Budyansky, M. Yu. Uleisky, and P. A. Fayman. Lagrange Analysis of Mixing and Transfer of Water Masses in the Gulfs. Izvestiya, Atmospheric and Oceanic Physics, 2013, Vol. 49, No. 1, pp. 82-96.

2. S.V. Prants. Dynamical systems theory methods for styding mixing and transport in the ocean. Physica Scripta. 2013. V.87 art.no. 038115 

2014

S.V. Prants. Chaotic Lagrangian transport and mixing in the ocean. The European Physical Journal Special Topics. V.223, Issue 13, pp 2723-2743 (2014) DOI: 10.1140/epjst/e2014-02288-5

2017

1. S.V. Prants, M.Yu. Uleysky, M.V. Budyansky. Lagrangian oceanography: large-scale transport and mixing in the ocean. Berlin, New York. Springer Verlag. 2017. 271 p. ISSN 1610-1677 ISBN 978-3-319-53021-5.

2. S.V. Prants, A.G. Andreev, M.V. Budyansky, M.Yu. Uleysky. Mesoscale circulation along the Sakhalin Island eastern coast. Ocean Dynamics. (2017) V. 67. Is.3 P. 345-356.  doi:10.1007/s10236-017-1031-x

3. S.V. Prants, M.V. Budyansky, M.Yu. Uleysky. Statistical analysis of Lagrangian transport of subtropical waters in the Japan Sea based on AVISO altimetry data.Nonlin. Processes Geophys. V.24, p. 89-99, 2017 doi:10.5194/npg-24-1-2017.

5. S.V. Prants, M.V. Budyansky, M.Yu. Uleysky.  Lagrangian simulation and tracking of the mesoscale eddies contaminated by Fukushima-derived radionuclides. Ocean Science. V.13 P.453-463 (2017). https://doi.org/10.5194/os-13-453-2017

6. M.V. Budyansky, S.V. Prants, E.V. Samko, M.Yu. Uleysky. Identification and Lagrangian analysis of oceanographic structures favorable for fishery of neon flying squid (Ommastrephes bartramii) in the South Kuril area. Oceanology, 2017, Vol. 57, No. 5, pp. 648–660. 

7. M.V. Budyansky, M.Yu. Uleysky, A.G. Andreev, S.V. Prants. A Lagrangian analysis of Kuril eddies. Vestnik DVO. N4 P.81-88 (2017) (in Russian) 

2018

1. Wang W., Prants S.V., Zhang J., Wang L. A. Lagrangian Analysis of Vortex Formation  in the Wake behind a Transversely Oscillating Cylinder. Regular and Chaotic Dynamics. 2018. Vol. 23, No. 5. Р. 579–590. DOI: 10.1134/S1560354718050076

2. Didov A.A., Uleysky M.Yu., Nonlinear resonances in the ABC-flow. Chaos. 2018. V.28, Is.1, P.013123. https://doi.org/10.1063/1.5003426

 

3. Didov A.A., Uleysky M.Yu., Analysis of stationary points and their bifurcations in the ABC-flow. Applied Mathematics and Computation. 2018. V.330, P.56-64. https://doi.org/10.1016/j.amc.2018.02.032

Last Updated (Tuesday, 04 December 2018 11:25)