Selected Publications and Works

1. Geophysical Fluid Dynamics

1.1. Peculiarities of salt seawater and other stratified two-component media fluid dynamics

  1. Ingel L.Kh., Kalashnik M.V. Nontrivial features in the hydrodynamics of seawater and other stratified solutions.Physics–Uspekhi. 2012. V. 55. No. 4. P. 356-381.
  2. Ingel L.Kh. On the conditions of convective instability in the surface layer of salt water.Oceanology. 2000. V. 40. No. 3. P. 340-343.
  3. Ingel L.Kh. "Negative heat capacity" in stratified fluids.JETP Letters. 2000. V. 72. No. 10. P. 753-757.
  4. Ingel L.Kh. Response of a humid atmosphere on a horizontal non-uniform heating and humidification.Doklady, Earth Sciences. 2001. V. 379. No. 3. P. 381-385.
  5. Ingel L.Kh. On the conditions of convective instability in the top layer of grout.Technical Physics. 2001. V. 71. No. 1. P. 128-130.
  6. Ingel L.Kh. On the effect of stratification of moisture on the dynamics of convective jets and thermals in the atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 2001. V. 37. No. 5. P. 639-645.
  7. Ingel L.Kh. On the thermodynamic response of the upper layer of salt water on the uneven heating and salinity.Oceanology. 2001. V. 41. No. 4. P. 502-509.
  8. Ingel L.Kh. On the singularities of turbulent convection in two-component media.Izvestiya, Atmospheric and Oceanic Physics. 2002. V. 38. No. 4. P. 496-503.
  9. Ingel L.Kh. "Negative heat capacity" in stratified fluids.Physics - Uspekhi. 2002. V. 172. No. 6. P. 691-699.
  10. Ingel L.Kh. Transient convection in a binary mixture in a flat vertical surface.Fluid Dynamics. 2002. No. 3. P. 92-97.
  11. Ingel L.Kh. The mechanism of convective instability of a binary mixture heated from above.Journal of Experimental and Theoretical Physics. 2002. V. 122. No. 5. P. 1019-1021.
  12. Ingel L.Kh. Turbulent convection in a stratified binary mixture at a vertical surface.J. Eng. Physics. and Thermophysics. 2002. V. 75. No. 1. P. 82-85.
  13. Ingel L.Kh. Convective-radiative instability of moist air.Izvestiya, Atmospheric and Oceanic Physics. 2003. V. 39. No 5. P. 726-728.
  14. Ingel L.Kh. An analytical model of the nonlinear interaction of the fields of temperature, heavy suspended sediment concentration and vertical shear of velocity in a stably stratified medium.Dynamics of Atmospheres and Oceans. 2003. V. 37. P. 147-154.
  15. Ingel L.Kh. The mechanism of convective instability of a binary mixture.Journal of Experimental and Theoretical Physics. 2005. V. 128. No. 1. P. 179-182.
  16. Ingel L.Kh. A new type of instability due to double (differential) diffusion.Doklady, Earth Sciences. 2006. V. 408. No 1. P. 92-95.
  17. Ingel L.Kh. Anomalous response of stratified fluid mechanical effects.Journal of Experimental and Theoretical Physics. 2006. V. 129. No. 1. P. 213-220.
  18. Ingel L.Kh. On disturbances introduced by impulse source into stratified two-component media.Environmental Fluid Mechanics. 2006. V. 6. No. 4. P. 303-311.
  19. Ingel L.Kh. Shear flow perturbations caused by interaction with convective rolls. Fluid Dynamics. 2006. No. 3. P. 34-37.
  20. Kalashnik M.V., Ingel L.Kh. Hydrodynamic "memory" of binary mixtures.Journal of Experimental and Theoretical Physics. 2006. V. 130. No. 1. P. 161-170.
  21. Kalashnik M.V., Ingel L.Kh. The mechanism of formation of temperature inhomogeneities in stratified in temperature and salinity of the ocean.Doklady, Earth Sciences. 2006. V. 407. No. 5. P. 673-678.
  22. Kalashnik M.V., Ingel L.Kh. Geostrophic adjustment and frontogenesis in stratified two-component media.Izvestiya, Atmospheric and Oceanic Physics. 2006. V. 42. No. 4. P. 554-565.
  23. Ingel L.Kh. New effects in the hydrodynamics of binary mixtures.IX All-Russian Congress on Theoretical and Applied Mechanics. Abstracts. T.II. Nizhny Novgorod: Publisher NSU, 2006. P. 95-96.
  24. Ingel L.Kh., Kalashnik M.V. On the singularities of the dynamics hydrothermodynamic perturbations in a stably stratified binary mixture.Fluid Dynamics. 2007. No. 6. P. 13-21.
  25. Ingel L.Kh., Kalashnik M.V. Geostrophic adaptation of linear perturbations in a two-component media.Oceanology. 2007. V. 47. No. 5. P. 657-665.
  26. Ingel L.Kh., Kalashnik M.V. Some new effects in hydrothermodynamics of binary mixes.Intern. Conf. "Fluxes and Structures in Fluids". Abstracts. St.-Petersburg. 2007. P. 47-48.
  27. Ingel L.Kh. On the theory of rising convective jets.Izvestiya, Atmospheric and Oceanic Physics. 2008. V. 44. No. 2. P. 178-185.
  28. Ingel L.Kh., Kalashnik M.V. Some new effects in hydrothermodynamics of binary mixes."Fluxes and Structures in Fluids 2007". Intern. Conf. Selected Papers. St.-Petersburg, 2007. Moskow: IPM RAS. 2008. P. 93-98.
  29. Ingel L.Kh. The mechanism of convective instability of a binary mixture in a vertical surface.Technical Physics. 2009. V. 79. No. 2. P. 43-47.
  30. Ingel L.Kh. Convection in a stratified binary mixture in a thermally inhomogeneous vertical surface. Fluid Dynamics. 2009. No. 5. P. 68- 80.
  31. Ingel L.Kh., Kalashnik M.V. Some non-trivial features of hydrodynamics of two-component liquids.International Conference of the MCC-2009, "Mode Conversion, Coherent structures and turbulence." 23-25 November 2009 Proceedings. M.: LENAND. 2009. P. 194-200.
  32. Ingel L.Kh. Density currents caused by the "double diffusion".Izvestiya, Atmospheric and Oceanic Physics. 2010. V. 46. No. 1. P. 48-52.
  33. Ingel L.Kh. Anomalous hydrodynamic resistance due to differential diffusion.Technical Physics. 2010. V. 80. No. 2. P. 152-154. http://zhurnal.ape.relarn.ru/articles/2010/057.pdf

1.2. Convection and "anticonvection"

  1. Ingel L.Kh. The dynamics of dry thermals, initiated by the active impurity.Izvestiya, Atmospheric and Oceanic Physics. 1981. V. 17. No. 2. P. 138-145.
  2. Vulfson A.N., Ingel L.Kh. Non-linear thermal wave from the horizontal neutral sources in stratified media.Izvestiya, Atmospheric and Oceanic Physics. 1982. V. 18. No. 3. P. 233-239.
  3. Ingel L.Kh., Ivanov V.N. On the modulation of the convective boundary layer parameters of large-scale vertical motions.Izvestiya, Atmospheric and Oceanic Physics. 1983. V. 19. No. 1. P. 14-20.
  4. Ingel L.Kh. On the dynamics of convective freely-ascending jets initiated by active admixtures.Izvestiya, Atmospheric and Oceanic Physics. 1983. V. 19. No. 9. P. 987-988. Fully deposited in VINITI. 02.03.83, No. 1103-83 Dep.
  5. Ingel L.Kh., Gusarov O. Limit laws freely-ascending convective jets and thermals, heat-driven admixture.Proceedings of the IEM. 1984. No. 32 (106). P. 64-78.
  6. Ingel L.Kh. On the convective jets are associated with local sources of heat-releasing admixture in a stably stratified medium.Fluid Dynamics. 1984. No. 1. P. 156-168.
  7. Ingel L.Kh. On nonlinear thermal waves caused by the action of horizontal sources of heat-releasing admixture in a neutrally stratified fluid.Izvestiya, Atmospheric and Oceanic Physics. 1984. V. 20. No. 3. P. 318-320.
  8. Ingel L.Kh., Stogova I.V. On perturbations introduced in a stably stratified environment thermally inhomogeneous surface.Meteorology and Hydrology. 1986. No. 3. P. 23-29.
  9. Khain A.P., Ingel L.Kh., Yarmolinsky M.G. Numerical simulation of the interaction of convective and large-scale processes in the atmospheric boundary layer with the formation of temperature inversion.Izvestiya, Atmospheric and Oceanic Physics. 1986. V. 22. No. 12. P. 1269-1278.
  10. Khain A.P., Ingel L.Kh. A numerical model of the atmospheric boundary layer over the ocean during convection.Izvestiya, Atmospheric and Oceanic Physics. 1988. V. 24. No. 1. P. 35-46.
  11. Khain A.P., Ingel L.Kh. Numerical simulation of nonstationary divergent flow with convective processes in the atmospheric boundary layer over the ocean.Izvestiya, Atmospheric and Oceanic Physics. 1995. V. 31. No. 4. P. 496-506.
  12. Ingel L.Kh. Convection from heat sources, elongated vertically.Izvestiya, Atmospheric and Oceanic Physics, 1990. V. 26. No. 8. P. 784-800.
  13. Ingel L.Kh., Stogova I.V. On perturbations induced by thermal inhomogeneities at the interface between two stably stratified media.Izvestiya, Atmospheric and Oceanic Physics. 1987. V. 23. No. 10. P. 1120-1121. / / Fully deposited in VINITI. 25.11.87, No. 1375-B87.
  14. Perestenko O.V., Ingel L.Kh. to the linear theory of non-stationary convection in a stably stratified rotating medium of thermally inhomogeneous surface.Izvestiya, Atmospheric and Oceanic Physics. 1990. V. 26. No. 9. P. 906-916.
  15. Ingel L.Kh.,  Perestenko O.V.On the increments of unstable modes in the "anticonvection" Welander.Proceedings of the Institute of Experimental Meteorology. 1991. No. 54 (151). P. 122-I27.
  16. Ingel L.Kh. On the structure of the central part of the pop-up region ka heat-releasing admixture.Proceedings of the Institute of Experimental Meteorology. 1991. No. 54 (151). P. 127-I32.
  17. Perestenko O.V., Ingel L.Kh. On a possible type of convective instability in the ocean-atmosphere system.Izvestiya, Atmospheric and Oceanic Physics. 1991. V. 27. No. 4. P. 408-418.
  18. Ingel L.Kh., Perestenko O.V. On the increments of growing modes in a simple model of ocean-atmosphere system in the development of instability of Welander.Izvestiya, Atmospheric and Oceanic Physics. 1992. V. 28. No. 1. P. 46-54.
  19. Perestenko O.V., Ingel L.Kh. 0n one mechanism of the instability of stably stratified atmospheric boundary layer over the underlying surface moist.Doklady, Earth Sciences. 1993. V. 333. No. 1. P. 92-95.
  20. Ingel L.Kh., Perestenko O.V. 0 the possible mechanism of amplification of convection in the atmosphere above the stratified water body.Meteorology and Hydrology. 1994. No. 1. P. 12-17.
  21. Perestenko O.V., Ingel L.Kh. The occurence of moist "anticonvection" in water-air system.Journ. Fluid Mech. 1995. V. 287. P. 1-20.
  22. Perestenko O.V., Ingel L.Kh. On an instability mechanism in a stably stratified atmospheric layer over a moistened surface.Boundary-Layer Meteorology. 1996. V. 78. No 3-4. P. 383-398.
  23. Ingel L.Kh. "Anticonvection".Physics–Uspekhi. 1997. V. 167. No. 7. P. 779-784.
  24. Ingel L.Kh. On the stability of one type of flows.Proceedings of the IEM. 1997. No. 28 (163). P. 49-55.
  25. Ingel L.Kh., Kalashnik M.V., Perestenko O.V. Svirkunov P.N., Shmerlin B.J. On some little-known mechanisms of hydrodynamic instabilities in the atmosphere."Problems of Atmospheric Physics." Collection of papers. Saint-Petersburg: Gidrometeoizdat, 1998. P. 247-272.
  26. Ingel L.Kh. Self-heat-releasing admixture in a fluids.Physics–Uspekhi. 1998. V. 168. No. 1. P. 104-108 [/ source]
  27. Ingel L.Kh. Convection from local sources of severe heat-releasing admixture.Izvestiya, Atmospheric and Oceanic Physics. 1998. V. 34. No. 5. P. 645-650.
  28. Perestenko O.V., Ingel L.Kh. "Anticonvection" unexplored mechanisms of interaction between the atmosphere and hydrosphere."Interaction in the lithosphere-atmosphere-hydrosphere."Collection of papers. T. II. Moscow: Publishing House Phys. Faculty Moscow State University, 1999. P. 129-134.
  29. Ingel L.Kh. On the conditions of convective instability in the surface layer of salt water.Oceanology. 2000. V.40. No. 3. P. 340-343.
  30. Ingel L.Kh. On the singularities of turbulent convection in two-component media.Izvestiya, Atmospheric and Oceanic Physics. 2002. V.38. No. 4. P. 496-503.
  31. Perestenko O.V., Ingel L.Kh. An instability mechanism in the atmosphere over a water body.Meteorology and Atmospheric Physics. 2002. V.81. No. 3-4. P.139-147.
  32. Ingel L.Kh. The development of turbulent convection in a heated vertical surface.J. Eng. Physics and Thermophysics. 2001. V. 74. No. 2. P. 189.
  33. Ingel L.Kh. The development of turbulent convection on both sides of the interface water-air.A Non-linear World. 2007. V. 5. No. 6. P. 366-368.
  34. Ingel L.Kh. On the influence of background vertical motions on free convection over a thermally inhomogeneous horizontal surface.J. Eng. Physics and Thermophysics. 2008. V. 81. No. 1. P. 97-101.
  35. Ingel L.Kh. On the theory of rising convective jets.Izvestiya, Atmospheric and Oceanic Physics. 2008. V. 44. No. 2. P. 178-185.
  36. Ingel L.Kh. Convection in a rotating medium of thermally inhomogeneous surface.Fluid Dynamics. 2008. No. 6. P. 25-35.
  37. Ingel L.Kh. Evaluation of convection caused by heat at lightning discharge.issues in cloud physics. Collected papers of S.M. Shmeter memory . Moscow. 2008. P. 168-173.
  38. Ingel L.Kh. On the transfer of impurities in the convection over a thermally inhomogeneous horizontal surface.J. Eng. Physics and Thermophysics. 2008. V. 81. No. 6. P. 1158-1163.
  39. Ingel L.Kh. The mechanism of convective instability of a binary mixture in a vertical surface.Technical Physics. 2009. V. 79. No. 2. P. 43-47.
  40. Ingel L.Kh. Convection in a stratified binary mixture in a thermally inhomogeneous vertical surface.Fluid Dynamics. 2009. No. 5. P. 68- 80.
  41. Ingel L.Kh. Collection of numerical models of artificial convective jets in the atmosphere and the aquatic environment.The Collection of Works by Winners of Regional Awards and Scholarships. No. 5. Kaluga. , 2009. P. 23-33.
  42. Ingel L.Kh. A mechanism of convective instability in the lower atmosphere.International Conference "Fluxes and Structures in Fluids: Physics of Geospheres". Moscow, June 24-27, 2009. Abstracts. V. II. Moscow: IPM RAS.  2009. P. 109-112.
  43. Belyaeva M.V., Ingel L.Kh. On the theory of convection in a rotating stratified fluid over a thermally inhomogeneous horizontal surface.International Conference "Fluxes and Structures in Fluids: Physics of Geospheres". Moscow, June 24-27, 2009. Abstracts. V. I. Moscow: IPM RAS. 2009. P. 28-32.
  44. Ingel L.Kh. The radiation amplification effect of meteotron.J. Eng. Physics and Thermophysics. 2010. V. 83. No. 1. P. 111-117.
  45. Ingel L.Kh. "Anticonvection".The Collection of Works by Winners of Regional Awards and Scholarships. No. 6. Kaluga. 2010. P. 27-36.
  46. Ingel L.Kh. On one mechanism of convective instability in the lower atmosphere.International Conference "Fluxes and Structures in Fluids: Physics of Geospheres". Moscow, June 24-27, 2009. Selected papers. Moscow: IPM RAS. 2010. P. 171-174.
  47. Ingel L.Kh., Belyaeva M.V. On the theory of convection in a rotating stratified fluid over a thermally inhomogeneous horizontal surface. [/ title] J. Eng. Physics and Thermophysics.  2011. V. 84. No. 4. P. 759-763.
  48. Ingel L.Kh. Features of thermocapillary convection in two-component liquids. Fluid Dynamics.  2011. No. 5. P. 33-41.
  49. Ingel L.Kh. On one effect of differential diffusion in the sea.Electronic Journal "Investigated in Russia". 2010. 057. P. 670-680. http://zhurnal.ape.relarn.ru/articles/2010/057.pdf

1.3. Geostrophic adjustment and other effects of rotation

  1. Ingel L.Kh. On the influence of the heat source for large-scale pressure field and wind (quazibarotropic model).Meteorology and Hydrology. 1983. No. 8. P. 29-38.
  2. Ingel L.Kh. On the influence of the heat source for large-scale fields of pressure and wind in the baroclinic atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 1985. V. 21. No. 3. P. 262-269.
  3. Ingel L.Kh. On the large-scale dynamic effect of the heat source in a homogeneous rotating fluid layer (linear approximation).Proceedings of the IEM. 1984. No. 39 (122). P. 118-130.
  4. Ingel L.Kh. The response of atmospheric heat source to the effect of large horizontal dimensions.Meteorology and Hydrology. 1987. No. 1. P. 26-34.
  5. Vulfson A.N., Ingel L.Kh. The study of perturbations associated with the bulk of horizontal non-uniform heat generation in a stably stratified atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 1987. V. 23. No. 6. P. 582-592.
  6. Ingel L.Kh. On perturbations caused by a horizontally nonuniform heat generation in a rotating homogeneous stratified medium.Proceedings of the IEM. 1987. No. 42 (127). P. 20-34.
  7. Perestenko O.V., Ingel L.Kh. On perturbations caused by the action of the zonal volumetric heat source in a baroclinic atmosphere on the β-plane.Proceedings of the IEM. 1987. No. 42 (127). pp. 34-42.
  8. Ingel L.Kh. On the influence of the boundary layer on the perturbation buoyancy in a rotating medium.Meteorology and Hydrology. 1988. No. 2. P. 17-26.
  9. Ingel L.Kh. On the influence of boundary layers on the dynamics of perturbations in a rotating stratified fluid.Meteorology and Hydrology. 1988. No. 7. P. 51-65.
  10. Kalashnik M.V., Ingel L.Kh. On the stationary large-scale convection associated with interior heat in the atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 1988, V. 24, No. 12, P. 1327-1328. (Fully deposited at VINITI. 23.06.88 No. 4988-B88).
  11. Kalashnik M.V., Ingel L.Kh. The vortex motion, initiated by volume source of heat in the atmosphere."Tropical Meteorology" Tr. 4th International Symposium. Havana, April 1987, Leningrad, Gidrometeoizdat, 1989. P. 19-33.
  12. Perestenko O.V., Ingel L.Kh. On the possibility of instability in the Welander type of ocean-atmosphere system."Tropical Meteorology" Tr. 4th International Symposium. Havana, April 1987, Leningrad, Gidrometeoizdat, 1989. P. 299-315.
  13. Ingel L.Kh. On the influence of the beta-effect on disturbances caused by heat sources in the atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 1989. V. 25. No. 9. P. 940-947.
  14. Ingel L.Kh. Disturbances of barotropic geostrophic flow of thermal and dynamic horizontal inhomogeneities.Meteorology and Hydrology. 1989. No. 12. P. 45-53.
  15. Ingel L.Kh. Vortex "footprint" of the earthquake in the sea.Doklady, Earth Sciences. 1998. V. 362. No. 4. P. 548-549.
  16. Kalashnik M.V., Ingel L.Kh. geostrophic adjustment and frontogenesis in stratified two-component media.Izvestiya, Atmospheric and Oceanic Physics. 2006. V. 42. No. 4. P. 554-565.
  17. Ingel L.Kh., Kalashnik M.V. geostrophic adaptation of linear perturbations in a two-component media.Oceanology. 2007. V. 47. No. 5. P. 657-665.
  18. Kakhiani V.O. Patarashvili K.I., Tsakadze S.J., Kalashnik M.V., Ingel L.Kh. Model of the geostrophic vorticity Obukhov.Izvestiya, Atmospheric and Oceanic Physics. 2009. V. 45. No. 4. P. 435-442.

1.4. Boundary and surface layers

  1. Ivanov V.N., Ingel L.Kh. On the structure of the atmospheric boundary layer in the trade wind zone.Proceedings of the IEM. 1975. No. 10 (53). P. 131-140.
  2. Khain A.P., Ingel L.Kh. A numerical model of the atmospheric boundary layer over the ocean during convection.Izvestiya, Atmospheric and Oceanic Physics. 1988. V. 24. No. 1. P. 35-46.
  3. Ingel L.Kh. On the influence of the boundary layer on the disturbances buoyancy in a rotating medium.Meteorology and Hydrology. 1988. No. 2. P. 17-26.
  4. Ingel L.Kh. On the influence of boundary layers on the dynamics of disturbances in a rotating stratified fluid.Meteorology and Hydrology. 1988. No. 7. P. 51-65.
  5. Ingel L.Kh., Mikhailova L.A. On the theory of the Ekman boundary layer with nonlinear boundary conditions.Izvestiya, Atmospheric and Oceanic Physics. 1990. T. 26, No. 7, pp. 675-681.
  6. Ingel L.Kh. On the structure of a stationary surface layer with an admixture which absorbs solar radiation.Proceedings of the Institute of Experimental Meteorology. 1991. No. 54 (151). P. 101-105.
  7. Ingel L.Kh. 0n evolution of mesoscale disturbances in the neutral buoyancy of a stratified boundary layer.Proceedings of the Institute of Experimental Meteorology. 1992. No. 55 (155). P. 132-I40.
  8. Ingel L.Kh. The influence of large-scale vertical motions in the convection on the atmospheric boundary layer.Meteorology and Hydrology. 1992. No. 9. P. 84-87.
  9. Perestenko O.V., Ingel L.Kh. 0n one mechanism of the instability of stably stratified atmospheric boundary layer over the underlying surface moist.Doklady, Earth Sciences. 1993. V. 333. No. 1. P. 92-95.
  10. Ingel L.Kh., Perestenko O.V. A possible mechanism of amplification of convection in the atmosphere above the stratified water body.Meteorology and Hydrology. 1994. No. 1. P. 12-17.
  11. Khain A.P., Ingel L.Kh. Numerical simulation of nonstationary divergent flow with convective processes in the atmospheric boundary layer over the ocean.Izvestiya, Atmospheric and Oceanic Physics. 1995. T. 31. No. 4. pp. 496-506.
  12. Ingel L.Kh. Approximate analytical solution of the nonlinear problem of a flow over a thermally inhomogeneous underlying surface.Meteorol. Atmos. Phys. 1996. V. 58. N 1-4. P. 13-19.
  13. Ingel L.Kh. "Anticonvection".Physics–Uspekhi. 1997. V. 167. No. 7. P. 779-784.
  14. Ingel L.Kh. On the mechanism of intermittency of turbulence in the surface layer.Meteorology and Hydrology. 2000. No. 2. P. 99-103.
  15. Ingel L.Kh. The response of a damp atmosphere on a horizontal non-uniform heating and humidification.Doklady, Earth Sciences. 2001. V. 379. No. 3. P. 381-385.
  16. Perestenko O.V., Ingel L.Kh. An instability mechanism in the atmosphere over a water body.Meteorology and Atmospheric Physics. 2002. V.81. No. 3-4. P. 139-147.
  17. Ingel L.Kh. Analytical model of a stably stratified surface layer, taking into account the volume of cooling.Meteorology and Hydrology, 2004, No. 7, P. 64-71.
  18. Ingel L.Kh. On the calculation of ground-level winds in a tropical cyclone.«Problems of Forecasting Emergency» IV Scientific Conference. October 19-20, 2004. Reports and presentations. M.: OOO "RIF" MTP-Invest ", 2005. P. 233-241.
  19. Ingel L.Kh. On the nonlinear dynamics of the boundary layer of intense atmospheric vortex.Dynamics of Atmospheres and Oceans, 2005. V.40. N4. P. 295-304.
  20. Ingel L.Kh.. On the nonlinear dynamics of the boundary layer of intense atmospheric vortex.International Conference MCC-2004 "Mode Conversion, Coherent structures and turbulence." 23-25 November 2004 Proceedings. M.: ROHOS, 2004. P. 261-267.
  21. Ingel L.Kh. On the vertical motions associated with non-uniform friction on the underlying surface.Meteorology and Hydrology. 2007. No. 6. P. 106-109.
  22. Ingel L.Kh. On the influence of background vertical motions on free convection over a thermally inhomogeneous horizontal surface.J. Eng. Physics and Thermophysics. 2008. V. 81. No. 1. P. 97-101.
  23. N.P. Romanov, Ingel L.Kh. Experimental and theoretical investigation of convection in the air above the "cold spot" on a horizontal surface."Fluxes and Structures in Fluids 2007". Intern. Conf. Selected Papers. St.-Petersburg, 2007. Moskow: IPM RAS.  2008. P. 250-255.
  24. Ingel L.Kh. On the effect of spray on the dynamics of the surface layer of the atmosphere in strong winds.Izvestiya, Atmospheric and Oceanic Physics.  2011. V. 47. No. 1. P. 130-139.

1.5. Sloped flows

  1. Ingel L.Kh. To the nonlinear theory of katabatic winds. Fluid Dynamics. 2011. No. 4. P. 3-12.
  2. Ingel L.Kh. On the nonlinear theory of slope flows.Izvestiya, Atmospheric and Oceanic Physics. 2000. V.36. No. 3. P. 417-422.
  3. Ingel L.Kh. A mechanism of slope flows.Meteorology and Hydrology. 2006. No. 12. P.101-104.
  4. Ingel L.Kh. A possible mechanism of the intensification of the vertical exchange in the ocean during earthquakes.Oceanology. 2007. V. 47. No. 1. P. 27-30.
  5. Ingel L.Kh. On the mechanism of intermittency of turbulence in the surface layer.Meteorology and Hydrology. 2000. No. 2. P.99-103.

1.6. Nonlinear dynamics

  1. Ingel L.Kh. Some nonlinear problems of turbulent diffusion of the active impurities in the atmosphere.Izvestiya, Atmospheric and Oceanic Physics. 1976. V. 12. No. 8. P. 810-819.
  2. Ingel L.Kh. The dynamics of dry thermals, initiated by the active admixture.Izvestiya, Atmospheric and Oceanic Physics. 1981. V. 17. No. 2. P. 138-145.
  3. Vulfson A.N., Ingel L.Kh. Non-linear thermal wave from the horizontal neutral sources in stratified media.Izvestiya, Atmospheric and Oceanic Physics. 1982. V. 18. No. 3. P. 233-239.
  4. Ingel L.Kh., Ivanov V.N. On the modulation of the convective boundary layer parameters of large-scale vertical motions.Izvestiya, Atmospheric and Oceanic Physics. 1983. V. 19. No. 1. P. 14-20.
  5. Ingel L.Kh. On the convective jets are associated with local sources of heat-releasing admixture in a stably stratified medium.Fluid Dynamics. 1984. No. 1. P. 156-168.
  6. Ingel L.Kh. On nonlinear thermal waves caused by the action of horizontal sources of heat-releasing admixture in a neutrally stratified fluid.Izvestiya, Atmospheric and Oceanic Physics. 1984. V. 20. No. 3. P. 318-320.
  7. Ingel L.Kh. On the turbulent diffusion of concentrated rectilinear vortex.Proceedings of the IEM. 1984. No. 39 (122). P. 112-114.
  8. Ingel L.Kh. On the interaction of heat-releasing admixture cloud  with atmosphere inversion (turbulent regimen).Izvestiya, Atmospheric and Oceanic Physics. 1987. V. 23. No. 4. P. 441-444.
  9. Ingel L.Kh., Gusarov O.M. On some nonlinear effects in the semi-empirical models of turbulent transport.Proceedings of the IEM. 1987. No. 42 (127). P. 94-117.
  10.  Ingel L.Kh., Mikhailova L.A. On the theory of the Ekman boundary layer with nonlinear boundary conditions.Izvestiya, Atmospheric and Oceanic Physics, 1990, V. 26, No. 7, P. 675-681.
  11. Ingel L.Kh. On the evolution of the turbulent region extended vertically in a stably stratified medium.Izvestiya, Atmospheric and Oceanic Physics. 1993. V. 29. No. 6. P. 855-856.
  12. Ingel L.Kh. Approximate analytical solution of the nonlinear problem of a flow over a thermally inhomogeneous underlying surface.Meteorol. Atmos. Phys. 1996. V. 58. N 1-4. P. 13-19.
  13. Ingel L.Kh.,  Aristov S.N. A class of exact solutions of nonlinear problems of thermal circulations associated with interior heat in the atmosphere.Proceedings of the Institute of Experimental Meteorology. 1996. No. 27 (162). P. 142-157.
  14. Ingel L.Kh. Nonlinear diffusion of turbulent energy in a stably stratified medium.Izvestiya, Atmospheric and Oceanic Physics. 1997. V. 33. No. 1. P. 31-35.
  15. Ingel L.Kh. Self-heat-releasing admixture in a fluid medium.Physics–Uspekhi. 1998. V. 168. No. 1. P. 104-108.
  16. Ingel L.Kh. Nonuniqueness of stationary states in a nonlinear model of convection on the background of large-scale subsidence.Meteorology and Hydrology. 2000. No. 12.  P. 48-52.
  17. Ingel L.Kh. On the nonlinear theory of slope flows.Izvestiya, Atmospheric and Oceanic Physics. 2000. V.36. No. 3. P. 417-422.
  18. Ingel L.Kh. On dissipation of barotropic geostrophic motion on account of the nonlinear Ekman pumping.Dynamics of Atmospheres and Oceans. 2000. V. 33. No 1. P. 31-41.
  19. Ingel L.Kh. Self-similar solutions of nonlinear equations describing the flow in the shallow water, taking into account the nonlinear turbulent friction.Meteorology and Hydrology. 2001. No. 10. P. 105-107.
  20. Ingel L.Kh. On the dynamics of downward movements caused by local sources of heavy admixtures in the atmosphere.Non-linear World. 2010. No. 4. P. 214-219.
  21. Ingel L.Kh. Model of suppression of turbulence in the intense atmospheric vortex.Non-linear World. 2010. No. 11. P. 714-716.
  22. Ingel L.Kh. On the effect of spray on the dynamics of the surface layer of the atmosphere in strong winds.Izvestiya, Atmospheric and Oceanic Physics. 2011. V. 47. No. 1. P. 130-139.
  23. Ingel L.Kh. To the nonlinear theory of katabatic winds. Fluid Dynamics. 2011. No. 4. P. 3-12.

2. Tropical Cyclones and Tropical Meteorology.

  1. Tropical cyclones. The results of studies by Soviet scientists.The collective monograph.Voloshchuk V.M. , Ivanov V.N. ,  Ingel L.Kh. et al.  Gidrometeoizdat. 1989. 54 p.
  2. Yaroshevich M.I., Ingel L.Kh. Tropical cyclone as an element of ocean-atmosphere system.Doklady, Earth Sciences. 2004. V.399. No. 3 P. 397-400.
  3. Ingel L.Kh. On the calculation of ground-level winds in a tropical cyclone.«Problems of Forecasting Emergency» IV Scientific Conference. October 19-20, 2004. Reports and presentations. M.: OOO "RIF" MTP-Invest ", 2005. P. 233-241.
  4. Ingel L.Kh. On the nonlinear dynamics of the boundary layer of intense atmospheric vortex.Dynamics of Atmospheres and Oceans. 2005. V.40. No4. P. 295-304.
  5. Yaroshevich M.I., Ingel L.Kh. The diagnosis of the interaction of tropical cyclones.Izvestiya, Atmospheric and Oceanic Physics. 2006. V. 42. No. 6. P. 766-770.
  6. Ingel L.Kh., Yaroshevich M.I., Petrova L.I. On the mechanism of the impact of tropical cyclones on the earth's crust.Doklady, Earth Sciences. 2009. V. 425. No. 5. P. 674-677.
  7. Ingel L.Kh., Kalashnik M.V., Petrichenko S.A. Petrova L.I., Pudov V.D., Shmerlin B.J.,  Yaroshevich M.I. Studies in Meteorology and Oceanography of the Tropical Zone.Problems of Hydrometeorology and Environmental Monitoring. Collection of articles dedicated to the 50th anniversary of SPA "Typhoon". V. 1. Obninsk. 2010. P. 183-200.
  8. Ingel L.Kh. The quest for artificial influences on tropical cyclones.The collection of works by winners of regional awards and scholarships. No. 7. Kaluga. , 2011. P. 74-80.
  9. Ingel L.Kh., Petrova L.I. New approaches to the prediction of tropical cyclone intensity and active influences on them.Meteospektr. 2011. No. 3. P. 106-113.

3. Weather modifications

  1. Ingel L.Kh., Ivanova L.I. On the transformation of the air flow in the lower atmosphere under the influence of admixtures, which change the radiation balance.Proceedings of the IEM. 1979. No. 22 (87). P. 25-33.
  2. Ingel L.Kh. The dynamics of dry thermals, initiated by the active admixture.Izvestiya, Atmospheric and Oceanic Physics. 1981. V. 17. No. 2. P. 138-145.
  3. Ingel L.Kh. On the dynamics of convective free-rising jets initiated by active admixtures.Izvestiya, Atmospheric and Oceanic Physics. 1983. V. 19. No. 9. P. 987-988. Fully deposited in VINITI. 02.03.83, No. 1103-83 Dep.
  4. Ingel L.Kh., Gusarov O.M. Limit laws of convective free-rising jets and thermals, driven by heat-releasing admixture.Proceedings of the IEM. 1984. No. 32 (106). P. 64-78.
  5. Ingel L.Kh. On the convective jets are associated with local sources of heat-releasing admixture in a stably stratified medium.Fluid Dynamics. 1984. No. 1. P. 156-168.
  6. Ingel L.Kh. On nonlinear thermal waves caused by the action of horizontal sources of heat-releasing admixture in a neutrally stratified fluid.Izvestiya, Atmospheric and Oceanic Physics. 1984. V. 20. No. 3. P. 318-320.
  7. Ingel L.Kh., Somova S.M. On the interaction of heat-releasing admixture cloud with a barrier layer.Izvestiya, Atmospheric and Oceanic Physics. 1986. V. 22. No. 11. P. 1132-1139.
  8. Ingel L.Kh. On the structure of stably stratified atmospheric boundary layer in the presence of heat-releasing admixture.Izvestiya, Atmospheric and Oceanic Physics. 1985. V. 21. No. 1. P. 10-16.
  9. Ingel L.Kh. On the structure of a stationary surface layer with an admixture which absorbs solar radiation.Proceedings of the Institute of Experimental Meteorology. 1991. No. 54 (151). P. 101-105.
  10. Ingel L.Kh. The impact on atmospheric processes through the introduction of admixtures into the air, absorbing solar radiation.Overview VNIIGMI-WDC. Series 37.21. Meteorology. No. 8. Obninsk. 1988. 32 P.
  11. Ingel L.Kh. The impact on atmospheric processes through the absorption of solar energy by introducing of fine coal dust (soot) into the air.The active influence on hydrometeorological processes / Tr. All-Union Conference. Kiev, November 1987 Leningrad: Gidrometeoizdat, 1990. P. 444-450.
  12. Ingel L.Kh. Self-heat-releasing admixture in a fluid medium.Physics–Uspekhi. 1998. V. 168. No. 1. P. 104-108.
  13. Ingel L.Kh. Convection from local sources of heavy heat-releasing admixture.Izvestiya, Atmospheric and Oceanic Physics. 1998. V. 34. No. 5. P. 645-650.
  14. Ingel L.Kh. On the theory of rising convective jets.Izvestiya, Atmospheric and Oceanic Physics. 2008. V. 44. No. 2. P. 178-185.
  15. Ingel L.Kh. A set of numerical models of artificial convective jets in the atmosphere and the aquatic environment.The collection of works by winners of regional awards and scholarships. No. 5. Kaluga, 2009. P. 23-33.
  16. Ingel L.Kh. The radiation amplification effect of meteotron.J. Eng. Physics and Thermophysics. 2010. V. 83. No. 1. P. 111-117.
  17. Ingel L.Kh. The quest for artificial influences on tropical cyclones.The collection of works by winners of regional awards and scholarships. No. 7. Kaluga, 2011. P. 74-80 [/ source]
  18. Ingel L.Kh.,  Petrova L.I.New approaches to the prediction of tropical cyclones intensity and active influences on them.Meteospektr. 2011. No. 3. P. 106-113.
  19. Dinevich L., Ingel L., Khain A. Evaluations of vertical transport of ice-forming particles produced by ground-based generators.Scientific Israel Technological Advantages. 2011. V. 13. No 1. P. 95-107.

4. Seismic Manifestations of Atmospheric Processes

  1. Yaroshevich M.I., Ingel L.Kh. On the possibility of seismic remote detection of strong local winds.Doklady, Earth Sciences. 2000. V. 374. No. 6. P. 820-823.
  2. Yaroshevich M.I., Ingel L.Kh. A new approach to the problem of efficient registration and forecasting squall winds.Safety problems under  emergencies. VINITI. 2001. V. 5. P. 19-26.
  3. Ingel L.Kh., Theofilaktov V.D., Yaroshevich M.I. Registering of seismic signals associated with tornadoes.Doklady, Earth Sciences. 2002. V. 386 No. 6. P. 813-817.
  4. Ingel L.Kh., Theofilaktov V.D., Yaroshevich M.I. The use of seismic signals for monitoring and forecasting of hazardous weather events: the beginning of studies."Problems of Forecasting of Emergency Situations." II. Scientific and practical conference. Moscow, October 2002. Reports and presentations. Moscow: URSS. 2003. P. 176-184.
  5. Ingel L.Kh. Effective mechanism for the generation of seismic signals under the interaction of tornadoes with the ground.Doklady, Earth Sciences. 2004. V. 395. No. 2. P. 247-250.
  6. Ingel L.Kh., Yaroshevich M.I., Babkina V.F. On the seismic manifestations of convective clouds.Izvestiya, Atmospheric and Oceanic Physics. 2004. V. 40. No. 5. P. 689-695.
  7. Ingel L.Kh., Yaroshevich M.I.On the mechanisms of generation of seismic signals under the tornadoes-ground interaction.In the collection: "III Scientific Conference 22-23 October 2003. Problems of Forecasting of Emergency Situations. Reports and presentations". Moscow. URSS. 2004. P. 291-299.
  8. Garagash I.A., Ingel L.Kh., Yaroshevich M.I. On a possible mechanism of the influence of atmospheric processes on seismic activity near the shores of the oceans.Izvestiya, Physics of the Solid Earth. 2004. No. 8. P. 91-96.
  9. Ingel L.Kh. On the mechanisms of generation of seismic signals under the tornadoes-ground interaction.Volcanology and Seismology. 2006. No. 6. P. 65-70.
  10. Yaroshevich M.I., Ingel L.Kh. Seismic registering of tornadoes, squalls and other intense weather phenomena.The collection of works by winners of regional awards and scholarships. No. 4. Kaluga. 2008. P. 105-115.
  11. Yaroshevich M.I., Starovoit O.E., Ingel L.Kh., Babkina V.F. On the seismic manifestations of meteorological processes.Collection "Geophysics of intergeospheric processes." Moscow: GEOS. 2008. P. 87-94.
  12. Ingel L.Kh., Yaroshevich M.I., Petrova L.I. On the mechanism of the impact of tropical cyclones on the Earth's crust.Doklady, Earth Sciences. 2009. V. 425. No. 5. P. 674 677.

5. Hydrodynamic and Convective Instability

  1. Ingel L.Kh. On the Kelvin-Helmholtz instability in relativistic hydrodynamics. Fluid Dynamics. 1983. No. 2. P. 144-146.
  2. Perestenko O.V., Ingel L.Kh. On a possible type of convective instability in the ocean-atmosphere system.Izvestiya, Atmospheric and Oceanic Physics. 1991. V. 27. No. 4. P. 408-418.
  3. Ingel L.Kh., Perestenko O.V. On the increments of growing modes in a simple model of ocean-atmosphere system in the development of instability of Welander.Izvestiya, Atmospheric and Oceanic Physics. 1992. V. 28. No. 1. P. 46-54.
  4. Perestenko O.V., Ingel L.Kh. A mechanism of the instability of stably stratified atmospheric boundary layer over the moistened underlying surface.Doklady, Earth Sciences. 1993. V. 333. No. 1. P. 92-95.
  5. Ingel L.Kh.,  Perestenko O.V.A possible mechanism of amplification of convection in the atmosphere above the stratified water body.Meteorology and Hydrology. 1994. No. 1. P. 12-17.
  6. Perestenko O.V., Ingel L.Kh. The occurence of moist "anticonvection" in water-air system.Journ. Fluid Mech. 1995. V. 287. P. 1-20.
  7. Perestenko O.V., Ingel L.Kh. On an instability mechanism in a stably stratified atmospheric layer over a moistened surface.Boundary-Layer Meteorology. 1996. V. 78. No 3-4. P. 383-398.
  8. Ingel L.Kh. "Anticonvection".Physics–Uspekhi. 1997. V. 167. No. 7. P. 779-784.
  9. Ingel L.Kh. On the stability of one type of flows.Proceedings of the I.M. 1997. No. 28 (163). P. 49-55.
  10. Ingel L.Kh., Kalashnik M.V., Perestenko O.V. Svirkunov P.N., Shmerlin B.J. On some little-known mechanisms of hydrodynamic instabilities in the atmosphere [/ title] . "Problems of Atmospheric Physics." Collection of papers. Saint-Petersburg: Gidrometeoizdat, 1998. P. 247-272.
  11. Ingel L.Kh. The mechanism of convective instability of a binary mixture heated from above.Journal of Experimental and Theoretical Physics. 2002. V. 122. No. 5. P. 1019-1021.
  12. Perestenko O.V., Ingel L.Kh. An instability mechanism in the atmosphere over a water body.Meteorology and Atmospheric Physics. 2002. V.81. No. 3-4. P. 139-147.
  13. Ingel L.Kh. Convective-radiative instability of moist air.Izvestiya,  Atmospheric and Oceanic Physics. 2003. V.39. N5. P. 726-728.
  14. Ingel L.Kh. The mechanism of convective instability of a binary mixture.Journal of Experimental and Theoretical Physics. 2005. V. 128. No. 1. P. 179-182.
  15. Ingel L.Kh. A new type of instability due to double (differential) diffusion.Doklady, Earth Sciences. 2006. V. 408. No 1. P. 92-95.
  16. Ingel L.Kh. The mechanism of convective instability of a binary mixture near a vertical surface.Technical Physics. 2009. V. 79. No. 2. P. 43-47.
  17. Ingel L.Kh. Features of thermocapillary convection in two-component fluids.Fluid Dynamics. 2011. No. 5. P. 33-41.
  18. Ingel L.Kh., Kalashnik M.V. Nontrivial features in the hydrodynamics of seawater and other stratified solutions.Physics–Uspekhi. 2012. V. 55. No. 4. P. 356-381.

6. Nonlinear optics and quantum electronics

  1. Gurevich G.L., Ingel L.Kh., Khanin J.I.On the nonlinear lens effect on the stability of a laser stationary generation.Quantum Electron. 1972. No. 3 (9). P. 45-52.
  2. Gurevich G.L., Ingel L.Kh. On the effect of self-focusing on the stability of a laser stationary generation.Quantum Electron. 1972. No. 4 (10). P. 95-97.
  3. Gurevich G.L., Ingel L.Kh. On the mode-locking optical quantum generator under resonance modulation of the resonator parameters.Radiophysics and Quantum Electronics. 1974. V.17. No. 2. P. 219-227.

7. Gravitational lenses and related topics in astrophysics

  1. Ingel L.Kh. A note on gravitational focusing.Astronomy Reports. 1973. V.50. No. 6. P. 1331-1332.
  2. Ingel L.Kh. On some possible manifestations of the gravitational lens effect.Astrophysics. 1974. V.10. No. 4. P. 555-563.
  3. Ingel L.Kh. On the change in brightness of stars, observed through the planet atmosphere.Solar System Research. 1975. V.9. No. 1. P. 62-63.
  4. Ingel L.Kh. Gravitational lens and "superluminal velocity".Astronomy Reports Letters. 1975. V.1. No. 3. P. 18-20.
  5. Ingel L.Kh. On the possibility of using gravitational lense as a transmitting antenna.Solar System Research. 1975. V. 9. No. 2. P. 131-133.
  6. Ingel L.Kh. On the properties of non-Schwarzschild gravitational lenses.Astronomy Reports. 1975. V. 52. No. 4. P. 727-737.
  7. Ingel L.Kh. On the second region of strong focusing effect created by non-Schwarzschild gravitational lenses.Astronomy Reports. 1975. V. 52. No. 5. P. 1049-1054.
  8. Ingel L.Kh., Rubaha N.R. On the gravitational lens effect, taking into account diffraction.Radiophysics and Quantum Electronics. 1978. V. 21. No. 1. P. 87-90.
  9. Ingel L.Kh. On the illusion of superluminal velocities produced by gravitational lenses.Astrophysics. 1980. V. 16. No. 3. P. 535-538.

8. Relativity. Gravity. Astrophysics.

  1. Gertsenstein M.E., Ingel L.Kh., Pogosyan V.A. On the Newtonian dynamical models of supermassive bodies.Astrophysics. 1976. V. 12. No. 1. P. 165-176.
  2. Gertszenstein M.E., Ingel L.Kh., Filchenkov M.L. The motion of a test particle in the Schwarzschild field.Russian Physics Journal. 1977. No. 10. P. 44-50.
  3. Gertsenstein M.E., Ingel L.Kh., Filchenkov M.L. On the problem of physical singularities in general relativity.Russian Physics Journal. 1978. No. 7. P. 7-12.
  4. Gertsenstein M.E., Ingel L.Kh. The world lines of light in vacuum during the oscillating collapse (α = 0,5).Russian Physics Journal. 1981. No. 7. P. 85-90.
  5. Ingel L.Kh., Filchenkov M.L. The Doppler-Einstein effect in the Schwarzschild field.Russian Physics Journal. 1981. No. 3. P. 104-105.