List of publications

(in reverse chronological order)

  1. Manin, D.Yu. 2019 Running in Shackles: The Information-Theoretic Paradoxes of Poetry. In: Sriraman B. (eds) Handbook of the Mathematics of the Arts and Sciences. Springer, Cham. DOI:
  2. Manin, D.Yu. 2017. System and method for correcting clock discrepancy in simultaneous network traffic captures. US Patent 9,602,366
  3. Manin, D.Yu. 2016.Translating Hopkins The Hopkins Quarterly, XLII(3−4), pp. 85−101.
  4. Manin, D.Yu. 2012. The Right Word in the Left Place: measuring lexical foregrounding in poetry and prose. Scientific Study of Literature, 2(2), pp. 273−300.
  5. Manin, D.Yu. 2012. Liberated verse or chopped-up prose? Experimental study of Russian vers-libre. International conference on quantative methods in the study of arts, Yekaterniburg, Russia. [Д.Ю. Манин. Освобожденный стих или нарубленная проза? Экспериментальное исследование русского верлибра, доклад на конференции по количественными методам в искусствознании, Екатеринбург, ЕМИИ, 2012.]
  6. Manin, D.Yu. 2011. Chopped-up Prose or Liberated Verse? An experimental study of Russian vers libre. Modern Philology, 108(4), pp. 580-596
  7. Manin, D.Yu. 2009. Iz pesni ... ne vykinesh' [Can't drop a ... from a song]. Preprint of Ruthenia project (OGI Publishers and Tartu University), In Russian.
  8. Manin, D.Yu. 2009. Can Mandelbrot's model explain Zipf's law? J. Quantitative Linguistics, 16 (3), 2009, 274−285. DOI: 10.1080/09296170902850358
  9. Manin, D.Yu. 2008. Zipf's law and avoidance of excessive synonymy. Cognitive Science Journal, 32 (7), pp. 1075−1098.
  10. Manin, D.Yu. 2008. On the nature of long-range letter correlation in texts. preprint 0809.0103.
  11. Manin, D.Yu. 2006. Experiments on predictability of word in context and information rate in natural language. J. Information Processes (electronic publication,, 6 (3), 229−236.
  12. Everson, R., Manin, D., Sirovich, L., and Winter, M. 1998. Quantification of Mixing and Mixing Rate from Experimental Observations. AIAA Journal, 36 (2), 121.
  13. Knight, B.W., Manin, D., and Sirovich, L. 1996. Dynamical models of interacting neuron populations. In: Symposium on Robotics and Cybernetics; Computational Engineering in Systems Applications. (Gerf, E.C. ed) Cite Scientifique, Lille, France.
  14. Sirovich, L., Everson, R., and Manin, D. 1995 Turbulent Spectrum of the Earth's Ozone Field Phys. Rev. Lett., 74 (13), 2611−2614.
  15. Manin, D.Yu. and Nazarenko S.V. Nonlinear interaction of small-scale Rossby waves with an intense large-scale zonal flow. Phys. Fluids, 1 (3), 1158−1167.
  16. Dolzhanskiy, F.V., Manin, D.Yu., 1994. Effect Of The Turbulent Ekman Layer On The Dynamics Of Large-Scale Atmospheric Motions. Transactions (doklady) of the USSR Academy of Sciences. 323A (3), 22.
  17. Danilov, S.D., Dolzhanskii, F.V., Manin, D.Yu., 1993. Dynamics of large-scale flows with turbulent Ekman layer and their stability. Annales geophysicae. Atmospheres, hydrospheres. 11 (2/3), 104.
  18. Dolzhanskii F.V., Krymov V.A., Manin D.Yu., 1993. Computer-aided analysis of experimental flow fields. Russian J. Comp. Mech., 1 (1), 95-106.
  19. Krymov, V.A., Manin, D.Yu., 1992. Reconstruction of the External Force Field from the Velocity Field of a Quasi-Two-Dimensional Flow. Izvestiia. Atmospheric and oceanic physics., 28 (2), 95.
  20. Dolzhanskii, F.V., Krymov, V.A. and Manin, D.Yu., 1992. An advanced experimental investigation of quasi two-dimensional shear flows. J. Fluid Mech. 241, 705−722.
  21. Manin, D.Yu., 1992. A study of repeated vortex mergers in a forced quasi 2D shear flow. Phys. Fluids A, 4 (8), 1715−1723.
  22. Dolzhanskiy, F.V., Manin, D., 1992. Turbulent Ekman Layer and the Equation of Transformation of the Potential Vorticity. Izvestiia. Atmospheric and oceanic physics. 28 (1), 1.
  23. Dolzhanskij, F.V. and Manin, D.Yu., 1992. The effect of turbulent Ekman layer on large-scale atmospheric dynamics. Sov. Phys. Doklady, 223 (6).
  24. Dolzhanskii, F.V., Krymov, V.A. and Manin, D.Yu., 1992. Nonlinear spin-up and spin-down in a cylinder with small ratio of height to depth. J. Fluid Mech., 234, 473−486.
  25. Krymov, V. A., Manin, D.Yu., 1991. Experimental Study of Velocity Fields for Quasi-Two-Dimensional Flows. Izvestiya. Atmospheric and oceanic physics. 27 (7), 538
  26. Dolzhanskii, F.V. and Manin, D.Yu., 1991. On the effect of turbulent Ekman layer on global atmospheric dynamics. Preprint No.6, Inst. Atmos. Phys., Moscow, 10 p.
  27. Dolzhanskii, F.V., Krymov, V.A. and Manin, D.Yu., 1991. Quasi two-dimensional coherent structures. In Nonlinear dynamics of structures. World Scientific, Singapore, p. 1−20.
  28. Manin, D.Yu. and Chernous'ko, Yu.L., 1990. Experimental investigation of the stability of a quasi two-dimensional jet flow produced in a rotating fluid by the method of sources and sinks. Izvestiya. Atmospheric and oceanic physics., 26 (5), 327.
  29. Manin, D.Yu., 1990. Characteristic Size of Vortices in Developed Quasi-Two-Dimensional Flows. Izvestiia. Atmospheric and oceanic physics., 26 (6), 426.
  30. Dolzhanskij, F.V. and Manin, D.Yu., 1990. Laboratory simulations of atmospheric circulation and free shear layers. Izv. AN SSSR. Fiz. Atmos. Okeana, 26 (12), 1282−1288.
  31. Dolzhanskii, F.V., Krymov, V.A. and Manin, D.Yu., 1990. Stability and coherent structures in quasi-two-dimensional shear flows. Sov. Phys. Uspekhi, 33 (7), 495−520.
  32. Manin, D.Yu., 1990. Stability of quasi two-dimensional shear flows in the presence of the beta effect and external friction. Izvestiya, Atmos. Ocean. Phys., 25 (8), 593−598.
  33. Manin, D.Yu., 1989. On the characteristic length scale of vortices in developed quasi two-dimensional flows. Preprint No.6, Inst. Atmos. Phys., Moscow.
  34. Krymov, V.A. and Manin, D.Yu., 1989. Linear and nonlinear stability of quasi-two-dimensional jet flows with external friction. Izvestiya, Atmos. Ocean. Phys., 25 (3), 172−178.
  35. Manin, D.Yu., 1989. Stability and supercritical regimes of quasi two-dimensional shear flow in the presence of external friction (theory) Fluid dynamics, 24 (2), 177.
  36. Krymov, V.A. and Manin, D.Yu., 1986. Spin-down of a viscous fluid between infinite cones. Izv. AN SSSR. Mekh. zhidk. gaza, (4), 37−44.
  37. Krymov, V.A. and Manin, D.Yu., 1986. Spin-down of a viscous fluid in a low cylinder at high Reynolds numbers. Izv. AN SSSR. Mekh. zhidk. gaza, (3), 39−46.
  38. Manin, D.Yu. and Petviashvili, V.I., 1983. Self-focusing of a magnetosonic wave across the magnetic field. JETP Lett., 38 (9), 517−520.