CURRICULUM VITAEGREGORY L. EYINK

November 2018

Office Address: Home Address:Applied Mathematics & Statistics 33 Cedar Ave, Towson, MD202D Whitehead Hall (443) 275-1481The Johns Hopkins UniversityBaltimore, MD 21218 Date of Birth: Mar. 30, 1959(410) 516-7201 Nationality: United States

Family Status: Marriede-mail: eyink@jhu.edu

Chronology of Education

B. S. Mathematics and Philosophy, OSU, 1981(valedictorian).

Ph. D. Physics, The Ohio State University (OSU).December 1987.

Advisor: Professor Kenneth D. Lane.Thesis Title: “Quantum Field Theory in Non-integer

Dimension”

Current Position: Full Professor, Department of Mathematics & Statistics, JHU

Chronology of Employment

Belgian-American Education Foundation Fellow, 1987-1988Universite Libre de Bruxelles.

NATO-NSF Postdoctoral Fellow in Science; 1988-1989Visitor at Rutgers University.

Postdoctoral researcher at Rutgers University 1989-1990

Postdoctoral researcher at Universitat Munchen; 1990-1991Visitor at Rutgers University.

Postdoctoral researcher at Rutgers University 1991-1992

Consultant with CNLS, Los Alamos National Aug.1992Laboratory.

Visiting Research Assistant Professor 1992-1994Departments of Physics & Mathematics,University of Illinois at Urbana-Champaign.

Visiting Assistant Professor 1994-1995Department of Mathematics,University of Arizona

Assistant Professor 1995-1999Department of Mathematics,University of Arizona

Associate Professor 1999-2002Department of Mathematics,University of Arizona

Associate Professor 2001-2002Department of Physics,University of Arizona

Full Professor 2002Department of Mathematics,University of Arizona

Joint Appointments:Department of Physics & Astronomy, Department of Mathematics, andDepartment of Mechanical Engineering, Johns Hopkins University

Research Areas

statistical mechanics (equilibrium and nonequilibrium), fluid mechanics and turbulence,stochastic analysis, dynamical systems, partial differential equations, geosciences, astro-physics, superfluids, plasma physics, space science

Honors and Awards

Phi Beta Kappa (1979), Elected Outstanding Student (one of two) in both Departmentsof Mathematics and Philosophy, OSU (1981).

1995 Francois N. Frenkiel Award recipient, for the paper “The Renormalization GroupMethod in Statistical Hydrodynamics,” Phys. Fluids 6 3063-3078 (1994). The citationread: “For constructing an outstanding first principles formulation of renormalizationgroup (RNG) methods in hydrodynamic turbulence, and furnishing a valuable critique

and synthesis of earlier RNG theories.” The award is presented each year by the AmericanPhysical Society, Division of Fluid Mechanics, to recognize significant contributions influid mechanics by young investigators. The award is based upon a single paper which waspublished in the American Institute of Physics journal, Physics of Fluids, for the calendaryear preceding the presentation at the annual division meeting.

2003 Fellow of the American Physical Society. Citation: “For his work in nonequilibriumstatistical mechanics, in particular on the foundation of transport laws in chaotic dynamicalsystems, on field-theoretic methods in statistical hydrodynamics and on singularities anddissipative anomalies in fluid turbulence.”

2005-2006 Stanislaw Ulam Visiting Scholar at the Center for Nonlinear Studies, Los AlamosNational Laboratory

Teaching and Mentoring

Courses Taught at University of Arizona

Calculus, Math 125B or Math129: Second-semester (integral) calculus

Vector Calculus, Math 223: Multivariate calculus

Introduction to ODE’s, Math 254: Undergraduate course in ODE’s and dynamical systems

Theory of Probability, Math 464/564: Graduate/senior undergraduate course in probabil-ity theory

Numerical Analysis, Math 575A and Math 575B: Two-semester graduate course in numer-ical analysis (core course for applied math majors)

Special Topics Course, Math 577 or Physics 578: Introduction to Fluid Turbulence

Courses Taught at Johns Hopkins

Applied Mathematics I, 500.303: senior undergraduate course in mathematical methods

Scientific Computing: ODEs, 553.385: senior undergraduate course in numerical analysisand practical computing for linear algebra

Scientific Computing: ODEs, 553.386: senior undergraduate course in numerical analysisand practical computing for ODE’s

Dynamical Systems, 553.391: senior undergraduate course in dynamical systems

Applied Analysis for Engineers and Scientists, 550.491: graduate course in mathematicalmethods

Topics in Applied Mathematics, 550.790: graduate course in applied optimal estimation

Turbulence Theory I, 553.793: graduate course on fluid turbulence (1st semester).

Turbulence Theory II, 553.794: graduate course on fluid turbulence (2nd semester).

Advanced Parameterization in Science and Engineering, 553.795: graduate course in mod-eling multiscale-scale systems. Curriculum in the JHU IGERT program “Modeling Com-plex Systems.”

Two-Dimensional Turbulence, 550.696: graduate course on fluid turbulence

Ph.D. Candidates Advised

University of Arizona: Wayne Hacker 1992-2002 (with Ed Kerschen), Sangil Kim 2001-2006.

Johns Hopkins University: Qiaoning Chen 1998-2003 (with Shiyi Chen), Minping Wan2002-2008 (with Shiyi Chen), Zuoli Xiao 2001-2008 (with Shiyi Chen), Hussein Aluie 2003-2009 (with Ethan Vishniac), Dawn Ring 2003-2009 (with Tom Haine), Damien Benveniste2011-2014, Yikang Shi 2010-2016, Theodore D. Drivas 2011-2017.

Postdoctoral Researchers Advised

Santha Akella, 2008-2010 (with Tom Haine), Cristian C. Lalescu 2011-2015, Amir Jafari2017-present (with Ethan Vishniac)

Service

Referee for Communications in Mathematical Physics, Europhysics Letters, InternationalJournal of Modern Physics B, Journal of Fluid Mechanics, Journal of Statistical Physics,Modern Physics Letters B, Physica D: Nonlinear Phenomena, Physics Letters A, Physicsof Fluids, Physical Review E: Statistical Physics, Physical Review, etc.

Proposal referee for NSF, Directorate of Engineering, Chemical and Transport Systemsand Directorate for Mathematical & Physical Sciences, Applied Mathematics

Organizer of the UA Applied Mathematics Colloquium, 1997/1998

Organizer of the UA Fluid Mechanics Seminar, 1995/1996 (with S. Nazarenko), 1996/97,1997/98 (with N. Renno & J. Restrepo). Merged in 1998/99 with the NonequilibriumSeminar in physics (organized with R. Goldstein)

Editorial board member for the Journal of Statistical Physics, 1997/99.

Co-organizer (with M. Chertkov, R. Ecke, and D. D. Holm) of the CNLS Workshop“Progress in Statistical Hydrodynamics,” Santa Fe, New Mexico, March 25-29 2002.

Editor-in-Chief (with S. Y. Chen and C. Meneveau) of Journal of Turbulence, 2003–2011,Advisory Board, 2011-present.

Co-organizer (with S. Chen, R. Ecke, D. D. Holm, and C. Meneveau) of the CNLS Work-shop “Cascade Dynamics: Fundamentals and Modeling,” Santa Fe, New Mexico, August16-20, 2004.

Member-at-Large, Executive Committee, Group on Statistical and Nonlinear Physics,American Physical Society, 2005-2008.

Member, Selection Committee for the Lars Onsager Prize of the American Physical Society,2007-2008.

Member of the National Science Foundation (NSF) review panel for proposals submittedto the Collaborations in Mathematical Geosciences (CMG) activity of DMS/GEO, April10-11, 2006.

Co-organizer (with M. Chertkov and R. Ecke) of the CNLS Workshop, “2D Turbulence,”CNLS, Los Alamos, NM, August 28 - September 1, 2006.

Member of the Scientific Committee and U. S. Coordinator for the international conference“Euler Equations: 250 Years On,” Aussois, France, June 18–23, 2007.

Co-organizer (with S. Chen, D. Lathrop, and C. Meneveau) of the “Symposium on FluidScience & Turbulence,” Baltimore, Maryland (USA) May 30–31, 2008.

Co-organizer (with S. Chen, M. Chertkov and R. Ecke) of the CNLS Workshop, “Tur-bulence Nonlinear Physics in the 21st Century: The Pioneering Science of Robert H.Kraichnan,” Santa Fe, New Mexico, May 11–12, 2009.

Co-organizer (with C. Doering, P. Garaud, M. Jolly, K. Julien, and B. McKeon) of theprogram, “Mathematics of Turbulence,” Institute for Pure & Applied Mathematics, UCLA,September 8-December 12, 2014.

Co-organizer (with J. Bedrossian) of the Workshop, “Turbulent Dissipation, Mixing andPredictability,” Institute for Pure & Applied Mathematics, UCLA, January 9–13, 2017.

Publications

Published Papers

*[1] G. L. Eyink, “Quantum Field-Theory on Fractal Spacetime I: Introduction and Over-view.” Commun. Math. Phys. 125, 613-636 (1989). 24 pages.

*[2] G. L. Eyink,“Quantum Field-Theory on Fractal Spacetime II: Hierarchical Propaga-tors.” Commun. Math. Phys. 126, 85-101 (1989). 17 pages.

[3] G. L. Eyink, J. L. Lebowitz and H. Spohn, “Hydrodynamics of Stationary Non-equilibrium States for Some Stochastic Lattice Gas Models,” Commun. Math. Phys.132, 253-283 (1990). 31 pages.

[4] G. L. Eyink, “Dissipation and Large Thermodynamic Fluctuations,” J. Stat. Phys. 61,533-572 (1990). 40 pages.

[5] G. L. Eyink, J. L. Lebowitz and H. Spohn, “Lattice Gas Models in Contact withStochastic Reservoirs: Local Equilibrium and Relaxation to the Steady State,” Commun.Math. Phys. 140, 119-131 (1991). 13 pages.

[6] G. L. Eyink and H. Spohn, “Negative Temperature States and Large-Scale, Long-LivedVortices in Two-Dimensional Turbulence,” J. Stat. Phys. 70, 833-886 (1993). 54 pages.

[7] G. L. Eyink, “Lagrangian Field Theory, Multifractals, and Universal Scaling in Turbu-lence.” Phys. Lett. 172A, 355-360 (1993). 6 pages.

[8] N. I. Chernov, G. L. Eyink, J. L. Lebowitz, and Ya. G. Sinai, “Derivation of Ohm’sLaw in a Deterministic Mechanical Model,” Phys. Rev. Lett., 70, 2209-2212 (1993). 4pages.

[9] N. I. Chernov, G. L. Eyink, J. L. Lebowitz, and Ya. G. Sinai, “Steady-State ElectricalConduction in the Periodic Lorentz Gas,” Commun. Math. Phys. 154, 569-601 (1993).33 pages.

[10] G. L. Eyink, “Renormalization Group and Operator Product Expansion in Turbulence:Shell Models,” Phys. Rev. E 48 1823-1838 (1993). 16 pages.

[11] G. L. Eyink, “Energy Dissipation without Viscosity in Ideal Hydrodynamics, I. FourierAnalysis and Local Energy Transfer,” Physica D 78 222-240 (1994). 19 pages.

[12] G. L. Eyink, “Large-N Limit of the ‘Spherical Model’ of Turbulence,” Phys. Rev. E.49 3990-4002 (1994). 13 pages.

[13] G. L. Eyink, “The Renormalization Group Method in Statistical Hydrodynamics,”Phys. Fluids A. 6 3063-3078 (1994). 16 pages.

[14] G. L. Eyink and N. Goldenfeld, “Analogies Between Scaling in Turbulence, FieldTheory, and Critical Phenomena,” Phys. Rev. E 50 4679-4683 (1994). 5 pages.

[15] G. L. Eyink, “Besov Spaces and the Multifractal Hypothesis,” J. Stat. Phys. 78353-375 (1995). 23 pages.

[16] G. L. Eyink, “Local Energy Flux and the Refined Similarity Hypothesis,” J. Stat.Phys. 78 335-351 (1995). 17 pages.

[17] G. L. Eyink, “Multifractals and Lagrangian Field Theory,” Chaos, Solitons & Fractals,5 1465-1473 (1995). 9 pages.

[18] G. L. Eyink, “Exact Results on Scaling Exponents in the 2D Enstrophy Cascade,”Phys. Rev. Lett. 74 3800-3803 (1995). 4 pages.

[19] G. L. Eyink, “Exact Results on Stationary Turbulence in 2D: Consequences of VorticityConservation,” Physica D, 91 97-142 (1996). 46 pages.

[20] G. L. Eyink, J. L. Lebowitz and H. Spohn, “Hydrodynamics and Fluctuations Outsideof Local Equilibrium: Driven Diffusive Systems,” J. Stat. Phys. 83 385-472 (1996). 88pages.

[21]G. L. Eyink, “Turbulence Noise,” J. Stat. Phys. 83 955-1019 (1996). 65 pages.

[22]G. L. Eyink, “Intermittency and Anomalous Scaling of Passive Scalars in Any SpaceDimension,” Phys. Rev. E 54 1497-1503 (1996). 7 pages.

[23]G. L. Eyink and J. Xin, “Dissipation-Independence of the Inertial-Convective Rangein a Passive Scalar Model,” Phys. Rev. Lett. 77 2674-2677 (1996). 4 pages.

[24]G. L. Eyink, “Action Principle in Nonequilibrium Statistical Dynamics,” Phys. Rev.E, 54 3419-3435 (1996). 17 pages.

[25] F. J. Alexander and G. L. Eyink, “Rayleigh-Ritz Calculation of Effective PotentialFar From Equilibrium,” Phys. Rev. Lett. 78 1-4 (1997). 4 pages.

[26] G. L. Eyink and F. J. Alexander, “Turbulence Fluctuations and New, Universal Re-alizability Conditions in Modelling,” Phys. Rev. Lett. 78 2563-2566 (1997). 4 pages.

[27] G. L. Eyink, “Fluctuations in the Irreversible Decay of Turbulent Energy,” Phys. Rev.E 56 5413-5422 (1997). 10 pages.

[28] F. J. Alexander and G. L. Eyink, “Shape-dependent Thermodynamics and Non-LocalHydrodynamics in a Non-Gibbsian Steady-State of a Driven Diffusive System,” Phys. Rev.E., Rapid Communications, 57 6229-6232 (1998). 4 pages.

[29] G. L. Eyink and F. J. Alexander, “Predictive Turbulence Modelling by VariationalClosure,” J. Stat. Phys., 91 221-283 (1998). 63 pages.

[30] G. L. Eyink, “Linear Stochastic Models of Nonlinear Dynamical Systems,” Phys. Rev.E 58 6975-6991 (1998). 17 pages.

[31] G. L. Eyink and D. J. Thomson, “Free Decay of Turbulence and Breakdown of Self-Similarity,” Phys. Fluids 12 477-479 (2000). 2 pages.

[32] G. L. Eyink and H. Spohn, “Space-Time Invariant States of the Ideal Gas With FiniteNumber, Energy, and Entropy Density,” Amer. Math. Soc. Transl. 198 71-89 (2000). 19pages.

[33] G. L. Eyink, “Fluctuation-Response Relations for Multi-Time Correlations,” Phys.Rev. E 62, 210-220 (2000). 11 pages.

[34] G. L. Eyink and J. Xin, “Self-Similar Decay in the Kraichnan Model of a PassiveScalar,” J. Stat. Phys. 100 679-741 (2000). 63 pages.

[35] G. L. Eyink and J. Restrepo, “Optimal Histories for Nonlinear Stochastic Dynamics:An Application to Climate Change,” J. Stat. Phys. 101 459-472 (2000). 14 pages.

[36] M. Chaves, G. L. Eyink, U. Frisch, and M. Vergassola, “Universal Decay of ScalarTurbulence,” Phys. Rev. Lett. 86 2305-8 (2001). 4 pages.

[37] G. L. Eyink, “Dissipation in Turbulent Solutions of 2-D Euler,” Nonlinearity 14 787-

802 (2001). 16 pages.

[38] G. L. Eyink and J. Xin, “Statistical Analysis of a Semilinear Hyperbolic SystemAdvected by a White in Time Random Velocity Field,” Nonlinearity 15 551-563 (2002).13 pages.

[39] G. L. Eyink, “Local 4/5-Law and Energy Dissipation Anomaly in Turbulence,” Non-linearity 16 137-145 (2003). 9 pages.

[40] Q. Chen, S. Y. Chen, and G. L. Eyink, “The Joint Cascade of Energy and Helicity inThree-Dimensional Turbulence,” Phys. Fluids 15 361-374 (2003). 14 pages.

[41] Q. N. Chen, S. Y. Chen, G. L. Eyink, and D. D. Holm, “Intermittency in the JointCascade of Energy and Helicity,” Phys. Rev. Lett. 90 214503 (2003), 4 pages.

[42] Q. N. Chen, S. Y. Chen, G. L. Eyink, and K. R. Sreenivasan, “Kolmogorov’s ThirdHypothesis and Turbulent Sign Statistics,” Phys . Rev. Lett. 90 254501 (2003), 4 pages.

[43] M. A. Taylor, S. Kurien, and G. L. Eyink, “Recovering Isotropic Statistics in Tur-bulence Simulations: The Kolmogorov 4/5th law,” Phys. Rev. E 68 026310 (2003), 8pages.

[44] G. L. Eyink, S. Y. Chen, and Q. N. Chen, “Gibbsian Hypothesis in Turbulence,” J.Stat. Phys. 113 719-740 (2003), 22 pages.

[45] S. Kim, G. L. Eyink, J. M. Restrepo, F. Alexander, and G. Johnson, “EnsembleFiltering for Nonlinear Dynamics,” Mon. Weather Rev. 131 2586-2594 (2003), 9 pages.

[46] S. Y. Chen, R. E. Ecke, G. L. Eyink, X. Wang, and Z. Xiao, “Physical Mechanism ofthe Two-Dimensional Enstrophy Cascade,” Phys. Rev. Lett. 91 214501 (2003), 4 pages.

[47] G. L. Eyink, J. Restrepo, and F. J. Alexander, “A Mean-Field Approximation in DataAssimilation for Nonlinear Dynamics,” Physica D 195 347-368 (2004)

[48] G. L. Eyink, T. W. N. Haine, and D. L. Lea, “Ruelle’s Linear Response Formula,Ensemble Adjoint Schemes, and Levy flights,” Nonlinearity, 17 1867–1889 (2004).

[49] G. L. Eyink, “Statistical Hydrodynamics of the Thermohaline Circulation in a Two-Dimensional Model,” Tellus A, 57 100-115 (2005).

[50] F. J. Alexander, G. L. Eyink, and J. M. Restrepo, “Accelerated Monte Carlo forOptimal Estimation of Time Series,” J. Stat. Phys., 119, 1331-1345 (2005).

[51] Q. Chen, S. Chen, G. L. Eyink and D. D. Holm, “Resonant Interactions in RotatingHomogeneous Three-dimensional Turbulence,” J. Fluid Mech., 542, 139-164 (2005).

[52] G. L. Eyink, “Locality of Turbulent Cascades,” Physica D 207 91-116 (2005).

[53] G. L. Eyink and K. R. Sreenivasan, “Onsager and the Theory of HydrodynamicTurbulence,” Rev. Mod. Phys. 78 87-135 (2006).

[54] G. L. Eyink and S. Kim, “An Entropy-Based Particle Filtering Method,” J. Stat.Phys., 123 1071–1128 (2006).

[55] G. L. Eyink, “Multiscale Gradient Expansion of the Turbulent Stress Tensor,” J. FluidMech. 549 159–190 (2006).

[56] G. L. Eyink, “A Turbulent Constitutive Law for the 2D Inverse Energy Cascade,” J.Fluid Mech. 549 191–214 (2006).

[57] S. Chen, R. Ecke, G. L. Eyink, M. K. Rivera, Z. Xiao, and M. Wan, “The PhysicalMechanism of the Two-Dimensional Inverse Energy Cascade,” Phys. Rev. Lett. 96 084502(2006).

[58] G. L. Eyink, “Turbulent Cascade of Circulations,” C. R. Physique 7 449–455 (2006).

[59] S. Chen, G. L. Eyink, Z. Xiao, and M. Wan, “Is the Kelvin Theorem Valid for High-Reynolds-Number Turbulence?” Phys. Rev. Lett. 97 144505 (2006)

[60] G. L. Eyink and H. Aluie, “The Breakdown of Alfven’s Theorem in Ideal PlasmaFlows: Necessary Conditions and Physical Conjectures,” Physica D 223 82–92 (2006).

[61] Y. Li, C. Meneveau, S. Chen, and G. L. Eyink, “Subgrid-scale Modeling of Helicityand Energy Dissipation in Helical Turbulence,” Phys. Rev. E 74 026310 (2006)

[62] G. L. Eyink, “Cascade of Circulations in Fluid Turbulence,” Phys. Rev. E 74 066302(2006)

[63] G. L. Eyink, “Turbulent Diffusion of Lines and Circulations,” Phys. Lett. A 368486–490 (2007)

[64] F. J. Alexander, G. Johnson, G. L. Eyink, and I. G. Kevrekidis, “Equation-FreeImplementation of Statistical Moment Closures,” Phys. Rev. E 77 026701 (2008).

[65] G. L. Eyink, “Dissipative Anomalies in Singular Euler Flows,” Physica D 237 1956–1968 (2008).

[66] S. Chen, G. Eyink, G. Falkovich, U. Frisch and S. Orszag, “Robert Harry Kraichnan,”Physics Today (obituary notice) 61 70–71 (2008).

[67] Y. Li, E. Perlman, M. Wan, Y. Yang, C. Meneveau, R. Burns, S. Chen, A. Szalay andG. Eyink, “A Public Turbulence Database Cluster and Applications to Study LagrangianEvolution of Velocity Increments in Turbulence,” J. Turbulence 9, no.31 (2008).

[68] G. L. Eyink, “Turbulent Flow in Pipes and Channels as Cross-Stream ‘Inverse Cas-cades’ of Vorticity,” Phys. Fluids 20 125101 (2008).

[69] Z. Xiao, M. Wan, S. Chen and G. L. Eyink, “Physical Mechanism of the Inverse EnergyCascade of Two-Dimensional Turbulence: A Numerical Investigation,” J. Fluid Mech. 6191–44 (2009).

[70] Y. Li, L. Chevillard, G. L. Eyink and C. Meneveau, “Matrix Exponential-Based Clo-sures for the Turbulent Subgrid-Scale Stress Tensor,” Phys. Rev. E 79 016305 (2009).

[71] G. L. Eyink, “Stochastic Least-Action Principle for the Incompressible Navier-StokesEquation,” Physica D, in press (2009). doi:10.1016/j.physd.2008.11.011

[72] G. L. Eyink, “Stochastic Line Motion and Stochastic Flux Conservation for NonidealHydromagnetic Models,” J. Math. Phys. 50 083102 (2009)

[73] G. L. Eyink and H. Aluie, “Localness of Energy Cascade in Hydrodynamic Turbulence,I. Smooth Coarse-Graining,” Phys. Fluids 21 115107 (2009).

[74] H. Aluie and G. L. Eyink, “Localness of Energy Cascade in Hydrodynamic Turbulence,II. Sharp Spectral Filter,” Phys. Fluids 21 115108 (2009).

[75] G. L. Eyink and A. F. Neto, “Small-Scale Kinematic Dynamo and Non-Dynamo inInertial-Range Turbulence,” New J. Phys. 12 023021(2010).

[76] H. Aluie and G. L. Eyink, “Scale-Locality in Magnetohydrodynamic Turbulence,”Phys. Rev. Lett 104 081101 (2010)

[77] M. Wan, Z. Xiao, C. Meneveau, G. L. Eyink, and S. Chen, “Dissipation-Energy FluxCorrelations as Evidence for the Lagrangian Energy Cascade in Turbulence,” Phys. Fluids,22 061702 (2010)

[78] G. L. Eyink, “Stochastic Least-Action Principle for the Incompressible Navier-StokesEquation,” Physica D, 239 1236–1240 (2010)

[79] G. L. Eyink, “Fluctuation Dynamo and Turbulent Induction at Small Prandtl Num-ber,” Phys. Rev. E 82 046314 (2010)

[80] G. L. Eyink, “Stochastic Flux Freezing and Magnetic Dynamo”, Phys. Rev. E 83056405 (2011)

[81] G. L. Eyink. A. Lazarian. E. T. Vishniac, “Fast Magnetic Reconnection and Sponta-neous Stochasticity,” Astrophys. J. 743 51 (2011)

[82] H. Yu, K. Kanov, E. Perlman, J. Graham, E. Frederix, R. Burns, A. Szalay, G. Eyink,and C. Meneveau, “Studying Lagrangian Dynamics of Turbulence Using On-Demand FluidParticle Tracking in a Public Turbulence Database,” J. Turbulence, 13 12 (2012)

[83] A. Lazarian, G. L. Eyink, and E. T. Vishniac, “Relation of Astrophysical Turbulenceand Magnetic Reconnection,” Phys. Plasmas 19 012105 (2012)

[84] G. L. Eyink and Y.-K. Shi, “Kinetic Wave Turbulence,” Physica D 241 1487–1511(2012)

[85] E. T. Vishniac, S. Pillsworth, G. L. Eyink, G. Kowal, A. Lazarian, and S. Murray,“Reconnection Current Sheet Structure in a Turbulent Medium,” Nonlin. Proc. Geophys.19 605–610 (2012)

[86] G. L. Eyink and D. Benveniste, “Suppression of Particle Dispersion by SweepingEffects in Synthetic Turbulence,” Phys. Rev. E 87 023011 (2013)

[87] C. C. Lalescu, C. Meneveau and G. L. Eyink, “Synchronization of Chaos in FullyDeveloped Turbulence,” Phys. Rev. Lett. 110 084102 (2013)

[88] G. L. Eyink, E. T. Vishniac, C. C. Lalescu, H. Aluie, K. Kanov, K. Burger, R.D. Burns, C. Meneveau, and A. Szalay, “Flux-Freezing Breakdown in High-ConductivityMagnetohydrodynamic Turbulence,” Nature 497 466–469 (2013)

[89] G. L. Eyink and D. Benveniste, “Diffusion Approximation in Turbulent Two-ParticleDispersion,” Phys. Rev. E 88 041001 (2013)

[90] X. Wang, A. Szalay, M. A. Aragon-Calvo, M. C. Neyrinck, and G. L. Eyink, “Kine-matic Morphology of Large-scale Structure: Evolution from Potential to Rotational Flow,”Astrophys. J. 793, 58 (2014)

[91] G. L. Eyink and T. D. Drivas, “Spontaneous Stochasticity and Anomalous Dissipationfor Burgers Equation,” J. Stat. Phys. 158 386–432 (2015)

[92] A. Lazarian, G. L. Eyink, E. T. Vishniac, and G. Kowal, “Reconnection in TurbulentAstrophysical Fluids,” in: Numerical Modeling of Space Plasma Flows, Proceedings of the8th International Conference ASTRONUM-2013, Biarritz, France, July 1?5, 2013, Eds. N.V. Pogorelov, E. Audit and G. P. Zank, Astronomical Society of the Pacific ConferenceSeries, vol. 488 (ASP, San Francisco, 2015), pp.23-34.

[93] A. Lazarian, G. L. Eyink, E. T. Vishniac, and Grzegorz Kowal, “Magnetic Recon-nection in Astrophysical Environments,” in: Magnetic Fields in Diffuse Media, Eds. A.Lazarian, E. M. de Gouveia Pino, and C. Melioli, Astrophysics and Space Science Library,vol. 407 (Springer, New York, 2015), pp 311-372

[94] G. L. Eyink, “Turbulent General Magnetic Reconnection”, Astrophys. J.. 807 137(2015)

[95] G. L. Eyink, G. Kowal, A. Lazarian, and E. Vishniac, “Turbulent Reconnection andits Implications,” Philo. Trans. Roy. Soc. A. 373 20140144 (2015)

[96] C. C. Lalescu, Y.-K. Shi, G. L. Eyink, T. D. Drivas, E. T. Vishniac, and A. Lazar-ian, “Inertial-range Reconnection in Magnetohydrodynamic Turbulence and in the SolarWind,” Phys. Rev. Lett. 115 059901 (2015)

[97] K. Kanov, R. Burns, C. Lalescu and G. L. Eyink, “The Johns Hopkins TurbulenceDatabases: An Open Simulation Laboratory for Turbulence Research.,” Computing inScience Engineering 17 10 (2015)

[98] J. Graham, K. Kanov, X. I. A. Yang, M. Lee, N. Malaya, C. C. Lalescu, R. Burns, G.Eyink, A. Szalay, R. D. Moser and C. Meneveau, “A Web Services Accessible Database ofTurbulent Channel Flow and its Use for Testing a New Integral Wall Model for LES,” J.Turbulence. 17 181-215 (2015)

[99] Y. K. Shi and G. L. Eyink, “Resonance Van Hove Singularities in Wave Kinetics,”Physica D 332 55–72 (2016)

[100] T. D. Drivas and G. L. Eyink, “A Lagrangian Fluctuation-Dissipation Relation forScalar Turbulence. Part I. Flows with No Bounding Walls,” J. Fluid Mech. 829 153-189(2017)

[101] T. D. Drivas and G. L. Eyink, “A Lagrangian Fluctuation-Dissipation Relation forScalar Turbulence. Part II. Wall-Bounded flows,” J. Fluid Mech. 829 236-279 (2017)

[102] G. L. Eyink and T. D. Drivas, “A Lagrangian Fluctuation-Dissipation Relation forScalar Turbulence. Part III. Turbulent Rayleigh-Benard Convection,” J. Fluid Mech. 836560-598 (2018)

[103] T. D. Drivas and G. L. Eyink. “An Onsager Singularity Theorem for TurbulentSolutions of Compressible Euler Equations,” Commun. Math. Phys. 359 733–763 (2018)

[104] G. L. Eyink and T. D. Drivas. “Cascades and Dissipative Anomalies in CompressibleFluid Turbulence,” Phys. Rev. X 8 011022 (2018)

[105] G. L. Eyink and T. D. Drivas, “Cascades and Dissipative Anomalies in RelativisticFluid Turbulence,” Phys. Rev. X 8 011023 (2018)

[106] G. L. Eyink, “Cascades and Dissipative Anomalies in Nearly Collisionless PlasmaTurbulence,” Phys. Rev. X 8 041020 (2018)

Invited Scholarly Presentations

1994

Conference Lectures

XIth International Congress of Mathematical Physics, Paris, UNESCO-Sorbonne, July1994. A paper based on the 30 min. lecture, entitled “Energy Dissipation, Euler Equations,and the Multifractal Model of Turbulence,” appears in the Proceedings, Ed. D. Iagolnitzer,(International Press, Cambridge, MA, 1995).

1995

Conference Lectures

Scaling Dynamics in Fluid Turbulence, workshop organized by S. Chen and G. Doolen,CNLS, Los Alamos, NM, August 11-14, 1995. Topic: “Turbulent Scaling Laws and RefinedSimilarity Hypothesis.” (45 min)

1996

Conference Lectures

IAS Turbulence Workshop, organized by K. R. Sreenivasan at the Institute for AdvancedStudy, Princeton, NJ, May 18-May 21, 1996. Topic: “Rigorous Estimates of ScalingExponents for Passive Scalars.” (45 min)

Geophysical Fluid Dynamics Conference, organized by B. Nikolaenko and A. Mahalov,at Arizona State University, Tempe, AZ, May 1996. Topic: “Exact Results in Two-Dimensional Turbulence.” (1 hr)

Intermittency in Toy Models of Navier-Stokes Equations, workshop organized by L. Biferaleand U. Frisch, Observatoire de la Cote d’Azur, Nice, Dec. 11-14, 1996. Topic: “Zero-Diffusion Limit in the Kraichnan Model of a Passive Scalar.” (45 min)

Seminars

ICASE, NASA Langley, Hampton, VA, Oct. 1996. Title: “New Realizability Criteria inTurbulence Modeling.” (1 hr)

1997

Extended Research Programs

IHES Program on Turbulence, organized by K. Gawedzki and I. Procaccia, IHES, Bures-sur-Yvette, March-April 1997. Dates of participation: Mar.15-29. Title of lecture: “Fluc-tuations and Variational Principles in Turbulence.” (1 hr)

Conference Lectures

Turbulence Transport and Numerical Modeling, workshop organized by S. Chen and G.Doolen, CNLS, Los Alamos, June 4-7, 1997. Title: “Fluctuations and Variational Princi-ples in Turbulence Modeling.” (45 min)

XIIth International Congress of Mathematical Physics, Brisbane, Australia, July 13-19,1997. A paper based upon the 30 min. lecture, “Action Principle in Statistical Hydrody-namics,” will appear in the Proceedings.

Dynamic Organization of Fluctuations—Turbulence, Powders, and Biology, conference inhonor of H. Yukawa, Nishinomiya City, Japan, Nov.13-14, 1997. A paper based upon the45 min. lecture, “Action Principle in Statistical Dynamics,” appears in a special issue ofProg. Theor. Phys. Suppl. 130 77-86 (1998).

Nonlinear Phenomenology–From Molecules to Fluids, workshop at the Yukawa Institute

for Theoretical Physics, Kyoto, Nov.17-18, 1997. Title: “Thermodynamics and Hydrody-namics of Dissipative Steady-States.” (45 min)

78th Statistical Mechanics Meeting, Rutgers University, New Brunswick, NJ, Dec.14-16,1997. Topic: “Statistical Mechanics of Driven Diffusive Systems.” (20 min)

Seminars

Institute for Theoretical Science, University of Oregon, Eugene, OR, Feb. 1997. Topic:“Three Ideas of Onsager in Turbulence Theory.” (Three separate 1 hr lectures).

Physics Department, U. C. San Diego, San Diego, CA, Feb. 1997. Topic: “Fluctuationsin the Irreversible Decay of Turbulent Energy.” (1 hr)

Nonequilibrium Working Group, LANL, Los Alamos, NM, June 1997. Title: “Fluctuations& Variational Principles in Nonequilibrium Statistical Mechanics.” (1 hr)

1998

Extended Research Programs

1998 CTR Summer Program, 7th biannual summer research program at the Center forTurbulence Research, Stanford University, July 5-31, 1998. Title of project and 10 min.summary presentation: “Evaluation of the Statistical Rayleigh-Ritz Method in IsotropicTurbulence Decay.” A report of the work will appear in the Proceedings.

Conference Lectures

New Approaches in Turbulence, symposium at the APS March Meeting, Los Angeles, CA,March 16-20, 1998. Title: “Rigorous Inequalities for Anomalous Scaling in Turbulence.”(30 min).

2nd Monte Verita Colloquium on Fundamental Problematic Issues in Turbulence, workshoporganized by A. Gyr and A. Tsinober, Monte Verita, Switzerland, Mar.22-27, 1998. Apaper based upon the 1 hr. lecture entitled, “Turbulent Fluctuations, Predictability, andAction Principles,” will appear in the Proceedings.

Turbulence: Challenges for the 21st Century, international conference in honor of the70th birthday of R. H. Kraichnan, CNLS, Los Alamos, NM, May 18-21, 1998. Title:“Fluctuations and Variational Principles in Turbulence Modeling.” (30 min)

Workshop on Superfluid Turbulence, conference organized by Russell Donnelly, Universityof Oregon, Eugene, OR, June 16-18, 1998. Title: “Variational Method for TurbulentEnergy Decay.” (30 min)

Application of DNS and LES to Industrial and Geophysical Flows, workshop organized bySedat Biringen, Istanbul, Turkey, Aug.5-7, 1998. Topic: “Action Principle in TurbulenceModeling: K − ε Closure.” (1 hr)

Workshop on Hydrodynamics Limits, The Fields Institute for Research in MathematicalSciences, Toronto, Ontario, Canada, Oct. 5-7, 1998. Title: “Surprises in the Hydrody-namics of Driven Lattice Gases.” ( 1 hr)

Seminars

Dept. of Aerospace and Mechanical Engineering, U. C. Davis, Davis, CA, Feb. 1998.Title: “Rayleigh-Ritz Variational Method for Turbulence Closure.” (1 hr)

1999

Extended Research Programs

Turbulence, programme at the Isaac Newton Institute for Mathematical Sciences, Cam-bridge, UK, January-July 1999. Dates of participation: May 17-June 30.

Conference Lectures

Nonlinear Science: Dynamics and Stochasticity, international conference in honor of the60th birthday of Gregoire Nicolis, Brussels, 30 June-3 July, 1999. Title: “Optimal Historiesfor Nonlinear Dynamics: An Application to Climate Change.” (30 min).

CNLS Workshop on Stochastic Evolutionary Equations, Los Alamos National Laboratory,Sept.13-17, 1999. Title: “Variational Estimation for Nonlinear Stochastic Dynamics.” (40min).

1999 AMS Fall Southeast Section Meeting, Charlotte, NC, Oct 15-17, 1999, Special Sessionon Stochastic PDEs and Turbulence. Title: “Ideal Turbulent Decay in Kraichnan’s Modelof a Passive Scalar, Part I.” (20 min).

3rd Annual DOE/MICS Workshop, ”Predictability of Complex Phenomena”, Los AlamosNational Laboratory, Los Alamos, NM, Dec. 6-8, 1999. Title: “Optimal Histories forNonlinear Dynamics: An Application to Climatology.” (30 min).

Seminars

Department of Physics, Physics and Beyond Seminar. University of Illinois at Urbana-Champaign, Urbana, IL, Sept.22, 1999. Title: “Self-Similar Decay in the Kraichnan Modelof a Passive Scalar.” (1 hr).

Department of Theoretical and Applied Mechanics, Turbulence and Complex Flow Sem-inar, University of Illinois at Urbana-Champaign, Urbana, IL, Sept. 23, 1999. Title:“Estimation of Turbulent Flow.” (1 hr).

2000

Extended Research Programs

Physics of Hydrodynamic Turbulence, program at the Institute for Theoretical Physics,Santa Barbara, CA, January-June 2000. Dates of participation: March 1-May 30. After-noon seminar, April 18, 2000. Title: “Zeroth Law of Turbulence.” (1 hr)

Conference Lectures

2000 Annual Arizona/Los Alamos Days Workshop, Center for Nonlinear Studies, LosAlamos National Laboratory, Los Alamos, NM, 28-29 January 2000. Title: “Self-SimilarDecay in the Kraichnan Model of a Passive Scalar.” (25 min.)

ITP Conference on Hydrodynamic Turbulence, Institute for Theoretical Physics, SantaBarbara, CA, February 7-11, 2000. Title: “Entropy and the 2nd Law in Turbulence.” (30min.)

Extreme Earth Events. 23rd International Conference on Mathematical Geophysics. LaCitadelle Villefranche sur Mer, France, June 18-23, 2000. Title: “Most Probable Historiesfor Nonlinear Dynamics.” (45 min.)

Seminars

Fluid Dynamics Seminar, Mathematics Institute, University of Warwick, Coventry, UK,June 21, 2000. Title: “Turbulent Decay of the Passive Scalar.” (1 hr)

Institute Colloquium, Mathematics Institute, University of Warwick, Coventry, UK, June23, 2000. Title: “Turbulence and the Inviscid Limit of Navier-Stokes.” (50 min)

Joint Seminar, Department of Geosciences and Department of Mechanical Engineering,Penn State University, University Park, PA, Oct.17, 2000. Title: “Most Probable Historiesfor Nonlinear Dynamics: An Application to Climate Change.” (1 hr)

Informal Statistical Physics Seminar, Institute for Physical Science and Technology, Uni-versity of Maryland, College Park, MD, Nov. 7, 2000. Title: “A Dying Scent on aTurbulent Breeze: Scaling in Passive Decay.” (50 min)

Special Seminar, Department of Mathematical Sciences, The Johns Hopkins University,Baltimore, MD, Dec. 8, 2000. Title: “A Variational Approach to Stochastic Estimationfor Large-Scale Nonlinear Dynamical Systems.” (1 hr)

2001

Conference Lectures

IMA Special Workshop: Frontiers of Mathematics in Geosciences, Institute for Mathemat-ics and its Applications, Minneapolis, MN, March 5-7, 2001.

Arizona Applied Math Fest, University of Arizona, Tucson, AZ, November 2-4, 2001. Title:“Dissipation in Turbulent Solutions of 2D Euler Equations.” (30 min)

Seminars

Mathematical Physics Seminar, Mathematics Department, University of Texas at Austin,Austin, TX, Jan. 22, 2001. Title: “Dissipation in Turbulence Solutions of 2D Euler.” (1hr)

Fluid Turbulence Group Seminar, Department of Mechanical Engineering, Yale University,New Haven, CT, Mar.16, 2001. Title: “Euler Equations and the Local Energy Cascade.”(1 hr)

Applied Math Modeling Seminar, Mathematics Department, University of Arizona, Tuc-son, AZ, Sept.13, 2001. Title: “Inverse Modeling in the Geosciences: A Variational Ap-proach.” (50 min)

PDE Seminar, Mathematics Department, University of Arizona, Tucson, AZ, Part I, Sept.25, 2001 and Part II, Oct. 16, 2001. Title: “Dissipation In Turbulent Solutions of 2DEuler.” (50 min ea.)

Condensed Matter Seminar, Physics Department, University of Arizona, Tucson, AZ, Oct.11, 2001. Title: “What’s So Strange About Fluid Turbulence?” (50 min)

Special Seminar, Department of Mathematical Sciences, The Johns Hopkins University,Baltimore, MD, Oct. 22, 2001. Title: “Inverse Modeling in the Geosciences: A VariationalApproach.” (1 hr)

2002

Extended Research Programs

Program on Developed Turbulence, Erwin Schrodinger Institute, Vienna, May 15 - July 14,2002. Dates of participation: May 22 - June 5. Seminar, June 4, 2002: “On the JointCascade of Energy and Helicity”. (1 hr)

Conference Lectures

Workshop on: Progress in Statistical Hydrodynamics, Center for Nonlinear Studies, LosAlamos National Laboratory, Santa Fe, NM, March 25-29, 2002. Title: “A Gibbs Hypoth-esis in Turbulence”. (20 min)

ESI Workshop on Burgers Turbulence and Beyond (BTB6), Erwin Schrodinger Insti-tute, Vienna, May 27-31, 2002. Title: “An Historical Account of Onsager’s DissipationAnomaly”. (40 min)

The 88th Rutgers Statistical Mechanics Conference, Dec 15-17, 2002, Rutgers University,New Brunswick, NJ. Title: “Local 4/5-Law and Energy Dissipation Anomaly in Turbu-lence”. (20 min)

2003

Conference Lectures

Workshop on Multiscale Modeling of Environmental Systems, SAMSI, Radisson GovernorsInn, Research Triangle Park, North Carolina, February 2-7, 2003. participation cancelled.

Stochastic Modeling of Geophysical Flows, Workshop of the Geophysical Turbulence Pro-gram of NCAR, Boulder, CO, March 12-14, 2003. participation cancelled.

Non-Equilibrium Statistical Mechanics in the New Millennium. A meeting to celebrateWilliam Klein’s sixtieth birthday, Boston University, March 29-30, 2003. participationcancelled.

International Turbulence Workshop, University of Central Florida, May 19-23, 2003. par-ticipation cancelled.

Current Perspectives on Predictability for the Atmosphere and Ocean,CAOS Workshop,Courant Institute, New York, December 5-6, 2003. participation cancelled.

Colloquia

Department of Physics & Astronomy, The Johns Hopkins University, Sept. 4, 2003. Title:“What’s So Surprising About Fluid Turbulence?” (50 min)

Seminars

CEAFM seminar, The Johns Hopkins University, April 11, 2003. Title: “Statistical Me-chanics of the Thermohaline Circulation.” (50 min)

Geophysical Turbulence Program, National Center for Atmospheric Research (NCAR),Boulder, CO, July 28, 2003. Title: “Statistical Mechanics of the Thermohaline Circula-tion.” (50 min)

2004

Conference Lectures

AIMS’ Fifth International Conference on Dynamical Systems and Differential Equations,California State Polytechnic University, Pomona, CA, June 16 - 19, 2004. Title: “Mecha-nisms and Foundations of the Dual Cascade Picture of 2D Turbulence.” (30 min)

Colloquia

Abdus Salam International Center for Theoretical Physics, Trieste, Italy, ICTP Seminar,June 9, 2004. Title: “Lars Onsager and the Theory of Hydrodynamic Turbulence.” (50min)

Physics Department, Oxford University, Oxford, UK, November 26, 2004. Title: “What’sSo Surprising About Fluid Turbulence?” (60 min)

Seminars

Department of Applied Mathematics & Statistics, The Johns Hopkins University, March4, 2004. Title: “Ruelle’s Linear Response Formula, Ensemble Adjoint Schemes, and LevyFlights.” (50 min)

Physics of Weather and Climate (PWC) Section, Abdus Salam International Center forTheoretical Physics, Trieste, Italy, June 11, 2004. Title: “Ruelle’s Linear Response For-mula, Ensemble Adjoint Schemes, and Levy Flights.” (50 min)

2005

Conference Lectures

Mathematical Issues and Challenges in Data Assimilation for Geophysical Systems: In-terdisciplinary Perspectives, Institute for Pure Applied Mathematics (IPAM), UCLA,February 23, 2005. Title: “Entropy-Based Ensemble Prediction Schemes.” (45 min)

CNLS Workshop on Multi-Scale Interactions in Turbulent Flows, La Fonda Santa Fe Hotel.Santa Fe, NM, July 18 - 21, 2005. Title: “A Multiscale Gradient Expansion for FluidTurbulence.” (45 min)

ESF Exploratory Workshop: Challenging Turbulent Lagrangian Dynamics, Castel Gan-dolfo, Italy, September 04, 2005. Title: “The Lagrangian Vortex Mechanisms of TurbulentCascades.” (20 min)

American Physical Society, Division of Fluid Dynamics, Annual Meeting 2005, Chicago,Illinois, USA, November 21, 2005. Title: “Multi-Scale Gradient Expansion of the TurbulentStress Tensor.” (10 min)

2006

Conference Lectures

Instabilities and Turbulence in MHD flows, Warwick University, Coventry, UK, June 26–July 1, 2006. Title: “Kelvin’s Theorem and Alfven’s Theorem in Turbulent Flow.” (50min)

CNLS Workshop on 2D Turbulence, Center for Nonlinear Studies, Los Alamos, NM, Au-gust 28–September 1, 2006. Title: “Two-Dimensional Turbulent Cascades of Enstrophy,Energy & Circulation.” (40 min)

Analytical and Computational Challenges of Incompressible Flows at High Reynolds Num-ber, Center for Scientific Computation And Mathematical Modeling (CSCAMM), Univer-sity of Maryland, College Park, MD, October 23–26, 2006. Title: “Incompressible FluidTurbulence & Generalized Solutions of Euler Equations.” (40 min)

American Physical Society, Division of Fluid Dynamics, Annual Meeting 2006, Orlando,FL, November 19–21, 2006. Title: “The Cascade of Circulations in Fluid Turbulence.”(10 min)

Seminars

Computational and Applied Mathematics Colloquium Series, Penn State University, De-partment of Mathematics, State College, PA, December 1, 2006. Title: “IncompressibleFluid Turbulence & Generalized Solutions of Euler Equations.” (1 hr)

2007

Conference Lectures

Two-Dimensional Turbulence, Lorentz Center, Leiden, The Netherlands March 19-23,2007. Title: “The Two-Dimensional Cascades of Enstrophy and Energy.” (90 min)

Euler Equations: 250 Years On, Aussois, France, June 18-23, 2007. Title: “DissipativeAnomalies in Singular Euler Flows.” (50 min)

2008

Extended Research Programs

Workshop on Wall Bounded Shear Flows: Transition and Turbulence, Isaac Newton In-stitute for Mathematical Sciences, Programme on the Nature of High Reynolds NumberTurbulence. September 8-12, 2008. Title: “Turbulent Flow in Pipes and Channels asCross-Stream Inverse Cascades of Vorticity.” (20 min)

Workshop on Inertial-Range Dynamics and Mixing, Isaac Newton Institute for Mathemat-ical Sciences, Programme on the Nature of High Reynolds Number Turbulence. September29-October 3, 2008. Title: “Turbulent Lagrangian Dynamics of Vortex and Magnetic-FieldLines.” (30 min)

Seminars

University of Dundee, Department of Applied Mathematics, December 02, 2008. Title:“Turbulent Lagrangian Dynamics of Vortex and Magnetic-Field Lines.” (1 hour)

2009

Conference Lectures

CNLS Workshop on Turbulence Nonlinear Physics in the 21st Century, May 11-12, SantaFe, NM. Title: “DIA and the Random Coupling Model: Past, Present, Future.” (50 min)

APS Division of Plasma Physics Annual Meeting, November 2–6, Atlanta, GA. Title:“Stochastic Flux-Freezing for Non-Ideal Hydromagnetic Plasmas.” (10 min)

2010

Extended Research Programs

IMA Tutorial on Analysis and Computation of Incompressible Fluid Flow, Institute forMathematics and Its Applications, February 21, 2010. Title: “Vorticity and Turbulence.”(90 min)

Colloquia

Physics Department, Boston University, Boston, MA, February 2, 2010. Title: “Sponta-neous Stochasticity: ‘Classical Weirdness’ in Turbulent Fluids.” (50 min)

Seminars

Center for Plasma Theory & Computation, University of Wisconsin – Madison, March 1,2010. Title: “Spontaneous Stochasticity and Flux-Freezing in Turbulent Plasmas.” (50min)

2011

Seminars

Kavli Institute for Theoretical Physics, March 9, 2011. Title: “Spontaneous Stochasticity,Flux-Freezing, and Fast Turbulent Reconnection.” 1 hr (Invited).

Applied Mathematics Statistics, The Johns Hopkins University, Department Seminar,March 31, 2011. Title: “Spontaneous Stochasticity, Flux-Freezing, and Magnetic Dy-namo.” 1 hr (Invited).

Integrated Applied Mathematics Program, University of New Hampshire, May 17, 2011.Title: “Flux-Freezing, Spontaneous Stochasticity, and Fast Turbulent Reconnection.” 1hr (Invited).

8th International Cambridge Workshop on Magnetic Reconnection 2011, University of NewHampshire, August 18, 2011. Title: “Flux-Freezing, Spontaneous Stochasticity, and FastTurbulent Reconnection.” 1 hr (Invited).

MHD and Kinetic Processes in Laboratory, Space and Astrophysical Plasmas, Kavli Insti-tute for Astronomy and Astrophysics, Peking University, , June 6, 2011. Title: “Flux-Freezing, Spontaneous Stochasticity, and Fast Turbulent Reconnection.” 1 hr (Invited).

2012

Colloquia

University of Arizona, Applied Mathematics Colloquium, September 28, 2012. Title:“Fluctuations in Wave Kinetics.” 1 hr (invited).

Conference Lectures

Workshop on Reconnection with Turbulence and Instabilities, Center for Magnetic Self-Organization, University of Wisconsin, Madison, WI, April 5, 2012. Title: “Flux-Freezing,Spontaneous Stochasticity, and Fast Turbulent Reconnection.” 1 hr (Invited).

Workshop on Mathematics of Particles and Flows, Wolfgang Pauli Institute, May 30, 2012Title: “Spontaneous Stochasticity and Turbulent Magnetic Dynamo.” 1 hr (Invited).

IUTAM Symposium on Understanding Common Aspects of Extreme Events in Fluids, Uni-versity College Dublin, Dublin, Ireland, July 2, 2012. Title: “Large Deviations in WaveKinetics”. 20 min (Invited).

9th International Cambridge Workshop on Magnetic Reconnection, Niels Bohr Interna-tional Academy, August 30, 2012 Title: “Spontaneous Stochasticity in MHD Turbulenceand Fast Reconnection.” 1 hr (Invited).

2013

Colloquia

Mathematics,Statistics and Computer Science (MSCS), University of Illinois at Chicago,Department Colloquium,, March 1, 2013 Title: “Spontaneous Stochasticity, TurbulentMagnetic Dynamo, and Onsager’s Conjecture on Euler Solutions”. 1 hr (invited)

Conference Lectures

APS March Meeting 2013, Baltimore, MD, Session W39: Computational Fluid Dynam-ics 2:30 PM – 5:30 PM, Thursday, March 21, 2013. Title: “Indeterminism in ClassicalDynamics of Particle Motion.” 10 min (submitted).

8th International Conference on Numerical Modeling of Space Plasma Flows, Biarritz,France, July 1- 5, 2013. Title: “MHD Turbulence Under the Virtual Microscope”, 30 min(invited).

Eilat Meeting 2013: Turbulence Amorphous Materials, Minerva Center for NonlinearPhysics of Complex Systems, Weizmann Institute of Science, November 8-15, 2013. Title:“More About Spontaneous Stochasticity”, 45 min (invited)

American Geophysical Union, Fall Meeting 2013, Session SH54A. Turbulence in the Helio-sphere: Observations, Simulations and Theory III, December 13, 2013. Title: “StochasticFlux-Freezing in MHD Turbulence and Reconnection in the Heliosheath”. 20 min (invited).

2014

Extended Research Programs

Mathematics of Turbulence Tutorials, Institute for Pure and Applied Mathematics , LongProgram on Mathematics of Turbulence. September 9-12, 2014. Title: “MathematicalAnalysis of Turbulence, I-III.” 3 hr (invited)

Workshop on Mathematical Analysis of Turbulence, Institute for Pure and Applied Math-ematics , Long Program on Mathematics of Turbulence. September 29 - October 3, 2014.Title: “Spontaneous Stochasticity and Anomalous Dissipation.” 50 min (invited)

Conference Lectures

Midwest Magnetic Fields Workshop, University of Wisconsin – Madison, April 28 – 29,2014. Title: “Spontaneous Stochasticity and Turbulent Reconnection.” 25 min (invited)

Geometrical Aspects of Hydrodynamics, Simons Center for Geometry and Physics, May 19–23, 2014. Title: “Spontaneous Stochasticity and Anomalous Dissipation in Turbulence.”1 hr (invited)

2016

Colloquia

Harvard Physics Department Colloquium, September 26, 2016. Title: “What’s So Sur-prising About Fluid Turbulence?” 1 hr (invited)

2017

Conference Lectures

Turbulent Dissipation, Mixing and Predictability, Institute for Pure and Applied Mathe-matics, UCLA January 9–13, 2017. T. Drivas and G. Eyink, Title: “Anomalous Dissipa-tion, Spontaneous Stochasticity, and Onsager’s Conjecture”, January 12, 40 min (invited)

Turbulent Dissipation, Mixing and Predictability, Institute for Pure and Applied Math-ematics, UCLA January 9–13, 2017. G. Eyink and T. D. Drivas, Title: “Real-WorldTurbulence as Dissipative Euler Solutions: A Physics Perspective’, January 12, 40 min(invited)

Workshop on Fluid Flows: from Graphene to Planetary Atmospheres, Simons Center forGeometry and Physics, Stony Brook, March 20-24, 2017. G. L. Eyink and T. D. Drivas,Title: “Cascades and Dissipative Anomalies in Relativistic Fluid Turbulence”, March 23,2017, 50 min (invited)

Workshop on Geometrical and Statistical Fluid Dynamics, Simons Center for Geometryand Physics, Stony Brook, October 11-17, 2017. G. L. Eyink and T. D. Drivas, Title:“Stochastic Lagrangian Representation of Diffusion and Dissipation in Fluid Dynamics”,October 13, 2017, 50 mins (invited)

Frontiers in Turbulence—KRS70. Symposium in Honor of Katepalli R. Sreenivasan, Den-ver, CO, Nov.17-18, 2017. G. L. Eyink and T. D. Drivas, Title: “A Lagrangian Approachto Turbulent Rayleigh-Benard Convection,,” November 18, 20 mins (invited)

70th Annual Meeting of the APS Division of Fluid Dynamics, Sunday-Tuesday, November19-21, 2017; Denver, Colorado, T. D. Drivas and G. L. Eyink, Title: “Theory of Com-pressible Fluid Turbulence”, November 19, 13min.

70th Annual Meeting of the APS Division of Fluid Dynamics, Sunday-Tuesday, November19-21, 2017; Denver, Colorado, G. L. Eyink and T. D. Drivas, Title: “Entropy Cascade inCompressible and Relativistic Turbulence”, November 19, 13min.

Seminars

Princeton Plasma Physics Laboratory, Theory Seminar, Title: “Onsager’s Ideal TurbulenceTheory”, September 12, 2017. 1 hr (invited)

Princeton Plasma Physics Laboratory, Theory Seminar, Title: “Inertial-Range TurbulentMagnetic Reconnection”, November 15, 2017. 1 hr (invited)

Princeton Center for Theoretical Sciences, Lunch Talk, Title: “How field-theory anomaliesand RG were discovered by Onsager for turbulence and how his exact, non-perturbativeapproach applies to new problems (e.g. relativistic turbulence)”, December 7, 2017. 1 hr(invited)

2018

Conference Lectures

Max-Planck/Princeton Center for Plasma Physics Workshop, Princeton University, 23–26April 2018. Title: “Turbulence and Reconnection,” April 23, 30 mins (invited)

Midwest Magnetic Fields Conference 2018, University of Wisconsn - Madison, 30 –31 May2018. Title: “Turbulence and Reconnection in Magnetized Collisionless Plasmas,” May31, 25 mins (invited)

US-Japan Workshop on Magnetic Reconnection 2018 (MR2018), Princeton University, 4–8 September 2018. Title: “Large-Scale Turbulent Reconnection, Viewed with Glasses Onand Off,” September 8, 15 mins (invited)

AGU Fall Meeting 2018, Washington, D.C., 10-14 December 2018. Title: “Exact Theoryof Kinetic Turbulence in Nearly Collisionless Plasmas,” December 11, 13 mins (invited)

Grants and Contracts

NSF grant, “ITR/AP: Optimal Nonlinear Estimation in the Geosciences,” with G. L.Eyink as P.I. and J. M. Restrepo and S. P. Neuman as co-P.I.’s, awarded as grant # DMS-

0113649, in the amount of $254,552 for the period from Sept. 2001 to Sept. 2004. Granteda no-cost extension until Sept. 2005.

NSF grant, “DLMS: Acquisition of Instrumentation for a Digital Laboratory for Multi-Scale Science,” awarded as grant # CTS-0320907, in the amount of $425,000 for the period09-2003 to 09-2006. This 3-year MRI award has 4 Co-PIs, (PI: S. Y. Chen, G. L. Eyinkone of four co-PI’s).

NSF grant, “Symposium: Fluid Science and Turbulence,” awarded as grant # CBET-0732580, in the amount of $15,000 for the period 07-2007 to 06-2007. (PI: C. Meneveau,G. L Eyink, co-PI).

NSF grant, “International Workshop on Euler Hydrodynamics: A Proposal for TravelFunding,” awarded as grant # DMS-0704001, in the amount of $20,925 for the period04-2007 to 03-2008. (G. L. Eyink, PI).

NSF grant, “ITR/ASE: Exploring the Lagrangian Structure of Complex Flows with 100Terabyte Datasets,” awarded as grant # ASE-0428325, in the amount of $2,165,860 forthe period 09/01/04 to 08/31/10. (PI: E. Vishniac, G. L. Eyink one of four co-PI’s).

NSF grant, “CMG: Quantifying Uncertainty in Ocean State Estimation,” funded as grant# DMS-0530844, in the amount of $620,000 for the period 09/19/2005 to 09/18/2010. (PI:T. W. Haine, G. Eyink, co-PI.)

NSF grant, “CDI-Type II: Database Enabled Multiscale Simulations and Analysis of FluidTurbulence,” funded as grant # CMMI-0941530 in the amount of $1,899,469 for the periodfrom 09/2009 to 08/2013. (PI: C. Meneveau, G. L. Eyink one of four co-PI’s)

NSF grant, “CDSE: Studying Multiscale Fluid Turbulence via Open Numerical Laborato-ries,” funded as grant # CBET-1507469 in the amount of $ 699,610 for the period from07/01/15 to 06/30/18 (PI: C. Meneveau, G. L. Eyink as one of four coPI’s)

NSF grant, “BIGDATA:IA: Democratizing Massive Fluid Flow Simulations via Open Nu-merical Laboratories and Applications to Turbulent Flow and Geophysical Modeling,”funded as grant # OCE-1633124 in the amount of $1,994,141 for the period from 10/01/16to 9/31/19 (PI: C. Meneveau, G. L. Eyink as one of four coPI’s)