Publication List

 

 

I. Published Refereed Papers:

[R59] V. Rom-Kedar and D. Turaev Stable motions of high energy particles interacting via a repelling potential,  Communications in Mathematical Physics 405 (6), 150 , 2024

 

[R58] O. Saporta-Katz, N. Mantel, R. Liran, V. Rom-Kedar, H. Gildor Northbound Transport of the Mediterranean Outflow and the Role of Time-Dependent Chaotic Advection, Geophysical Research Letters 51 (12), e2023GL105662 ,2024

 

[R57] L. Becker, S. Elliott, B. Firester, S. Gonen Cohen, M. Pnueli and V. Rom-Kedar,  Impact Hamiltonian systems and polygonal billiards, in "Hamiltonian Systems: Dynamics, Analysis, Applications" edited by Albert Fathi, Philip J. Morrison, Tere M-Seara, Sergei Tabachnikov, MSRI publications, Vol 72 ,2024

 

[R56] O. Yaniv and V. Rom-Kedar Quantum pseudointegrable Hamiltonian impact system , Phys. Rev. E 107, 054221, 2023

 

[R55] Ori Saporta-Katz, Edriss S. Titi, Hezi Gildor, Vered Rom-Kedar, A dynamic-kinematic 3D model for density-driven ocean circulation flows: Construction, global well-posedness and dynamics , JNLS 33, 1 , 2023.

 

[R54] M. Pnueli and V. Rom-Kedar, Near tangent dynamics in a class of Hamiltonian impact systems,  SIAM J. Appl. Dyn. Syst., 21 (3), 2000-2046 , 2022

 

 [R53] K. Fraczek and V. Rom-Kedar, Non-uniform ergodic properties of Hamiltonian flows with impacts , Ergodic Theory and Dynamical Systems, First View , pp. 1 - 63, DOI:10.1017/etds.2021.106, 2021

 

[R52] M. Pnueli and V. Rom-Kedar, On the structure of Hamiltonian impact systems, Nonlinearity 34 (4), 2611, 2021. https://doi.org/10.1088/1361-6544/abb450  

 

[R51] N. Frenkel, R. Saar Dover, E. Titon, Y. Shai, V. Rom-Kedar, Bistable bacterial growth dynamics in the presence of antimicrobial agents,  Antibiotics 2021, 10(1), 87; doi:10.3390/antibiotics10010087

 

[R50] M. Pnueli and V. Rom-Kedar, On Near Integrability of Some Impact Systems, SIAM J. Appl. Dyn. Syst., 17(4), 2707–2732. (26 pages), 2018, https://doi.org/10.1137/18M1177937.

 

[R49] Equilibration of energy in slow-fast systems, K. ShahD. Turaev, V. GelfreichV. Rom-Kedar, PNAS Vol 114, no. 49,  E10514 (2017).

 

[R48]  Leaky Fermi AcceleratorsK. ShahV. GelfreichV. Rom-KedarD. Turaev Phys. Rev. E 91, 062920 (2015).

[R47] R. Mundel, E. Fredj, H. Gildor and V. Rom-Kedar, "New Lagrangian diagnostics for characterizing fluid flow mixing" , Physics of Fluids, 26, no. 12 (2014): 126602

[R46] V. Gelfreich, V. Rom-Kedar, D. Turaev  Oscillating mushrooms: adiabatic theory for a non-ergodic system , 2014,  Journal of Physics A : Mathematical and Theoretical, Volume 47 (Number 39). Article number 395101 . ISSN 1751-8113

 

[R45] M. Kloc and V. Rom-Kedar "Smooth Hamiltonian systems with soft impacts"  SIAM J. Applied Dynamical Systems (Vol. 13, Issue 3), 2014.

 

[R44]  V.Gelfreich, V. Rom-Kedar and D. Turaev, "Fermi acceleration and adiabatic invariants for non-autonomous billiards", Chaos 22, 033116 (2012); http://dx.doi.org/10.1063/1.4736542 (21 pages).

[R43]  V. Rom-Kedar and D.Turaev, "Billiards: a singular perturbation limit of smooth Hamiltonian flows", Chaos 22, 026102 (2012); http://dx.doi.org/10.1063/1.4722010 (21 pages)

[R42] Roy Malka, Baruch Wolach, Ronit Gavrieli, Eliezer Shochat and Vered Rom-KedarEvidence for bistable bacteria-neutrophil interaction and its clinical implications  J. Clin Invest. doi:10.1172/JCI59832, 2012.  See also commentary .

[R41]   Rotem Aharon, Vered Rom-Kedar, and Hezi Gildor, "When complexity leads to simplicity: ocean surface mixing simplified by vertical convection", Phys. Fluids 24, 056603 (2012); http://dx.doi.org/10.1063/1.4719147ON THE COVER.

[R40] L. Lerman and V. Rom-Kedar, A saddle in a corner - a model of collinear triatomic reaction,  SIAM J. Appl. Dyn. Syst., Vol. 11, No. 1, pp. 416–446.

[R39]   R. Malka and V. Rom-Kedar, Bacteria--Phagocytes Dynamics, Axiomatic Modelling and Mass-Action Kinetics,  Mathematical Biosciences and Engineering, 8(2), 475-502, 2011.

[R38] V. Gelfreich, V. Rom-Kedar, K. Shah, D. Turaev, Robust exponential acceleratorsPRL  106, 074101, 2011.

[R37] E. Shlizermann and V Rom-KedarClassification of  solutions of the forced periodic nonlinear Schr\"{o}dinger equation,  Nonlinearity 23 (9), 2183-2218, 2010. Selected to be on Nonlinearity Highly Downloaded Collection for 2010.

[R36]  D. F. Carlson, E. Fredj, H. Gildor, V. Rom-Kedar, Deducing an upper bound to the horizontal eddy diffusivity using a stochastic Lagrangian model,  Environmental Fluid Mechanics, 1567-7419 (Print) 1573-1510 (Online),  2010.

[R35]  V. Rom-Kedar and D. Turaev, The symmetric Parabolic Resonance Instability Nonlinearity 23 1325-1351, 2010.

[R34] K. Shah, D. Turaev and V. Rom-Kedar,  Exponential energy growth in a Fermi acceleratorPhys. Rev. E 81, 056205, 2010. 

[R33] R. Malka R, E. Shochat, V. Rom-Kedar;  Bistability and Bacterial Infections. PLoS ONE 5(5): e10010. doi:10.1371/journal.pone.0010010, 2010.

[R32] E. Shlizermann and V. Rom-Kedar; Parabolic Resonance: A Route to Hamiltonian Spatio-Temporal Chaos, Physical Review Letters, 102, 033901, 2009.

[R31] M. Radnovic and V. Rom-Kedar, Foliations of Isonergy Surfaces and Singularities of Curves  Regular and Chaotic Dynamics, 2008, Vol. 13, No. 6, pp. 645–668, J. Moser-80 memorial issue, 2008.

[R30] E. Shochat and V. Rom-Kedar Novel strategies for G-CSF treatment of high-risk severe neutropenia suggested by mathematical modeling, Clinical Cancer Research 14, 6354-6363, October 15, 2008. See also the Supplement.

[R29] A. Rapoport and V. Rom-Kedar, Chaotic scattering by steep potentials, Phys. Rev E., 77, 016207 (2008) .

[R28] A. Rapoport, V. Rom-Kedar and D. Turaev, Stability in high dimensional steep repelling potentials, Comm. Math. Phys., 279, 497-534, 2008. Supplement

[R27] E. Shochat, V. Rom-Kedar and L. Segel  G-CSF control of neutrophils dynamics in the blood, Bull. Math. Biology , 69(7), 2299-2338, 2007. 

[R26] A. Rapoport, V. Rom-Kedar and D. Turaev, Approximating multi-dimensional Hamiltonian flows by billiards, Comm. Math. Phys., 272(3), 567-600, 2007.

[R25] A. Rapoport, V. Rom-Kedar, Non-ergodicity of the motion in three dimensional steep repelling dispersing potentials, Chaos 16, 043108, 2006.

[R24] E. Shlizermann and V Rom-KedarThree types of chaos in the forced nonlinear Schrodinger equation, Physical Review Letters, 96, 024104, 2006.

[R23] E. Shlizermann and V. Rom-Kedar, Hierarchy of bifurcations in the truncated and forced NLS model Chaos 15(1) 013107, 22 pp, 2005.

[R22] A. Litvak-Hinenzon and V. Rom-Kedar, On energy surfaces and the resonance web,  SIAM J. Appl. Dyn. Syst. 3(4), 525—573, 2004. 

[R21] D. Turaev and V. Rom-Kedar; Soft billiards with corners.  J. Stat. Phys., 112(3-4):765-813, 2003.

[R20] A. Litvak-Hinenzon and V. Rom-Kedar;  Parabolic resonances in 3 degree of freedom near-integrable Hamiltonian systems.  Physica D, 164(3-4):213-250, 2002.

[R19] A. Litvak-Hinenzon and V. Rom-Kedar;  Resonant tori and instabilities in Hamiltonian systems. Nonlinearity, 15(4):1149-1177, 2002.

[R18] V. Rom-Kedar and G.M. Zaslavsky;  Islands of accelerator modes and homoclinic tangles. Chaos, 9 (3):697-705, 1999.

[R17] V. Rom-Kedar and D.Turaev;  Big islands in dispersing billiard-like potentials. Physica D, 130:187-210, 1999.

[R16] V. Rom-Kedar and A.C. Poje Universal properties of chaotic transport in the presence of diffusion. Phys. of Fluids, 11(8):2044-2057, 1999.

[R15] D. Turaev and V. Rom-Kedar;  Islands appearing in near-ergodic flows. Nonlinearity, 11(3):575-600, 1998.

[R14] S. Pekarsky and V. Rom-Kedar;  Degeneracies and instabilities of the motion of a charged particle - the 4d web-map model.  Nonlinearity, 10(4):949-963, 1997.

[R13] S. Pekarsky and V. Rom-Kedar;  Uniform stochastic web in low-dimensional Hamiltonian systems. Phys. Lett. A, 225:274-286, 1997.

[R12] V.Rom-Kedar, Y. Dvorkin, and N. Paldor;  Chaotic Hamiltonian dynamics of particle's horizontal motion in the atmosphere. Physica D, 106(3-4):389-431, 1997.

[R11] V. Rom-Kedar and N. Paldor;  From the tropic to the poles in forty days. Bull. Amer. Mete. Soc., 78(12):2779-2784, 1997.

[R10] A. Litvak Hinenzon and V. Rom-Kedar; Symmetry breaking perturbations and strange attractors. Phys. Rev. E, 55(5):4964-4978, 1997.

[R9] Vered Rom-Kedar;  Parabolic resonances and instabilities. Chaos, 7(1):148-158, 1997.

[R8] V.Rom-Kedar; Secondary homoclinic bifurcation theorems. Chaos, 5(2):385-401, 1995.

[R7] V.Rom-Kedar;  Homoclinic tangles - classification and applications. Nonlinearity, 7:441-473, 1994.

[R6] V.Rom-Kedar, L.P. Kadanoff, S.C.E. Ching, and C.Amick; The breakup of a heteroclinic connection in a volume preserving mapping.  Physica D, 62:51-65, 1993.

[R5]  C.Amick, S.C.E. Ching, L.P. Kadanoff, and V.Rom-Kedar; Beyond all orders: Singular perturbations in a mapping. J. Nonlinear Sci., 2:9-67, 1992.

[R4] V. Rom-Kedar and S. Wiggins; Transport in two dimensional maps: Concepts, examples, and a comparison of the theory of Rom-Kedar and Wiggins with the Markov model of MacKay, Meiss, Ott, and Percival. Physica D, 51:248-266, 1991.            

[R3] V. Rom-Kedar, A. Leonard, and S. Wiggins; An analytical study of transport, mixing and chaos in an unsteady vortical flow.  J.  Fluid Mech., 214:347-394, 1990.

[R2] V. Rom-Kedar and S. Wiggins; Transport in two-dimensional maps. Archive for Rational Mech. and Anal., 109(3):239-298, 1990.

[R1] V. Rom-Kedar; Transport rates of a family of two-dimensional maps and flows. Physica D, 43:229-268, 1990.           

III. Editorials:

[RE1] V. Rom-Kedar and G.M. Zaslavsky; Chaotic kinetics and transport (overview). Chaos, 10(1):1-2, 2000. Focus Issue: Chaotic kinetics and Transport, eds V. Rom-Kedar and G. Zaslavsky. Including papers from the Workshop on Nonlinear Dynamics: Chaos, Transport and Transition to Turbulence held at the New York University, New York, November 1998.

IV.  Proceeding's Papers:

[RP1] A. Leonard, V. Rom-Kedar, and S.Wiggins;  Fluid mixing and dynamical systems, proc. intl. conf. on the physics of chaos and systems far from equilibrium.  In Nuclear Physics B (Proc. Suppl.), volume2, pages 179-190, 1987.

[RP2] V. Rom-Kedar;  Homoclinic structures in open flows.  In J.-D. Fournier and P.-L. Sulem, editors, emLarge Scale Structures in Nonlinear Physics, Proc., Lecture Notes in Physics, pages 50-72, Villefranche-sur-Mer, 1991. Springer-Verlag.

[RP3] Y. Ponty, A. Pouquet, V. Rom-Kedar, and P.L. Sulem;  Dynamo in a nearly integrable chaotic flow.  In M.R.C. Proctor, editor, Proc. NATO ASI: Theory of Solar and Planetary Dynamos, pages 241-248, Cambridge, MA, 1992. Cambridge University Press.           

[RP4] V. Rom-Kedar;  The topological approximation method.  In Doveil Benkadda and Elskens, editors, Transport, Chaos and Plasma Physics, Proc. , pages 39-57, Marseille, 1994. World Scientific.

[RP5] V. Rom-Kedar; Y. Dvorkin, and N.Paldor;  Chaotic motion on a rotating sphere.  In M.F. Shlesinger, Zaslavsky, G.M.thinspace and U.Frisch, editors, Proc. on Le'vy Flights and Related Phenomena, Lecture Notes in Physics, pages 72-87. Springer-Verlag, 1995.           

[RP6] V. Rom-Kedar;  Some characteristics of two-degrees-of-freedom Hamiltonian flows.  In Doveil Benkadda and Elskens, editors, Transport, Chaos and Plasma Physics, II, Proc., Marseille , pages 164-178, Singapore, 1996. World Scientific.

[RP7] V. Rom-Kedar;  Transport in a class of n-d.o.f. systems.  In Hamiltonian systems with three or more degrees of freedom (S'Agar'o, 1995) , pages 538-543. Kluwer Acad. Publ., Dordrecht, 1999.

[RP8] D. Turaev and V. Rom-Kedar;  On smooth Hamiltonian flows limiting to ergodic billiards.  In Chaos, kinetics and nonlinear dynamics in fluids and Plasmas (Carry-Le Rouet, 1997), volume 511 of Lecture Notes in Phys., pages 17-50. Springer, Berlin, 1998.

[RP9] A. Litvak-Hinenzon and V. Rom-Kedar;  Parabolic resonances in near integrable hamiltonian systems.  In D.S. Broomhead, E.A. Luchinskaya, P.V.E. McClintock, and T.Mullin, editors, emStochaos: Stochastic and Chaotic Dynamics in the Lakes, pages 358-368. American Institute of Physics, Melville, NY, USA, 2000.            

[RP10] V. Rom-Kedar;  Frequency spanning homoclinic families. Commun. Nonlinear Sci. Numer. Simul., 8(3-4):149-169, 2003.  Chaotic transport and complexity in classical and quantum dynamics.

[RP11] E. Shlizerman and V. Rom-Kedar; Energy surfaces and hierarchies of bifurcations - instabilities in the forced truncated NLS. In P. Collet et al. editors, Chaotic Dynamics and Transport in Classical and Quantum Systems. Kluwer Academic Press in NATO Science Series C, 2004. 

[RP12] E. Shlizermann and V. Rom-Kedar; Characterization of Orbits in the Truncated and Forced Nonlinear Shrodinger Model  , ENOC, 2005

       

 

 

           

 

           

 

           

 

           

 

           

Unpublished preprints:

 

V. Rom-Kedar, O. Yaniv, Roy Malka and E. Shapiro,  The Immune-Buffer COVID-19 Exit Strategy that Protects the Elderly, 2020 Med Arxiv