Articles dans des revues avec comité de lecture (227)
  1. 165. Melnikov, D., & Shevtsova, V. (2005). Liquid particles tracing in three-dimensional buoyancy-driven flows. Fluid Dynamics & Materials Processing, 1(2), 189.
  2. 166. Melnikov, D., Shevtsova, V., & Legros, J. C. (2005). Route to aperiodicity followed by high prandtl-number liquid bridge: 1-g case. Acta astronautica, 56, 601-611.
  3. 167. Melnikov, D., Shevtsova, V., & Legros, J. C. (2005). Effect of gravity on oscillatory Marangoni convection in half-zone formed by high Pr-number liquids. Advances in space research, 36(1), 43-47. doi:10.1016/j.asr.2005.02.078
  4. 168. Shevtsova, V., Simanovskii, I., Nepomny Ashchy, A., & Legros, J. C. (2005). Thermocapillary convection in a three-layer system with the temperature gradient directed along the interfaces. Comptes rendus. Mécanique, 333(4), 311-318. doi:10.1016/j.crme.2005.01.001
  5. 169. Lyubimova, T., Shklyaeva, E., Legros, J. C., Shevtsova, V., & Roux, B. (2005). Numerical study of high frequency vibration influence on measurement of Soret and diffusion coefficients in low gravity conditions. Advances in space research, 36(1), 70-74. doi:10.1016/j.asr.2005.03.154
  6. 170. Yan, Y., Shevtsova, V., & Saghir, Z. (2005). Numerical study of low frequency g-gitter effect on thermal diffusion. Fluid Dynamics and Material Processing, 1, 315-328.
  7. 171. Melnikov, D., Shevtsova, V., & Legros, J. C. (2004). Onset of temporal aperiodicity in high prandtl number liquid bridge under terrestrial conditions. Physics of fluids, 16, 1746-1757.
  8. 172. Shevtsova, V., Melnikov, D., & Legros, J. C. (2004). Change of flow patterns in thermocapillary convection in liquid bridge. Acta astronautica, 54(7), 493-501.
  9. 173. Shevtsova, V., Melnikov, D., & Legros, J. C. (2004). The study of stationary and oscillatory weak flows in space experiments. Microgravity, science and technology, 15(1), 49-61.
  10. 174. Shevtsova, V., Melnikov, D., & Legros, J. C. (2003). Multistability of oscillatory thermocapillary convection in a liquid bridge. Physical review. E, Statistical, nonlinear, and soft matter physics, 68(6), 066311. doi:10.1103/PhysRevE.68.066311
  11. 175. Shevtsova, V., Mojahed, M., Melnikov, D., & Legros, J. C. (2003). The choice of the critical mode of hydrothermal instability by liquid bridges. Lecture notes in physics, 628, 240-262.
  12. 176. Shevtsova, V., Melnikov, D., Mojahed, M., & Legros, J. C. (2003). Effect of ambient conditions near the interface on flow instability. Advances in space research, 32(2), 155-161.
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