Parties d'ouvrages collectifs (4)
  1. 1. Shevtsova, V., Melnikov, D., Gaponenko, Y., & Mialdun, A. (2020). G-Jitter, Vibrations, Diffusion: The IVIDIL Experiment. In V. Pletser (Ed.), Preparation of Space Experiments. IntechOpen. doi:10.5772/intechopen.93468
  2. 2. Mialdun, A., & Shevtsova, V. (2012). Application of Optical Interferometry for Measurement of (Thermo) Diffusion Coefficients. In M. E. Russo (Ed.), Interferometry Principles and Applications (pp. 491-512). Nova Science Publishers Inc.
  3. 3. Smirnov, N., Nikitin, V. V., Shevtsova, V., & Legros, J. C. (2005). The Role of Geometrical Factors in Deflagration-to-Detonation Transition. In Combustion Processes in Propulsion (pp. 305-314). Elsevier Inc. doi:10.1016/B978-012369394-5/50032-9
  4. 4. Smirnov, N., Nikitin, V. F., Tyurnikov, M., Boichenko, A., Legros, J. C., & Shevtsova, V. (2001). Control of detonation onset in combustible gases. In G. Roy, S. Frolov, D. Netzer, & A. Borisov (Eds.), High-speed deflagration and detonation: fundamentals and control (pp. 3-30). Moscow: ELEX-KM Publishers.
    5.   Articles dans des revues avec comité de lecture (227)
  5. 1. Saric, D., Guevara-Carrion, G., Gaponenko, Y., Shevtsova, V., & Vrabec, J. (2023). Diffusion of hydrocarbons diluted in supercritical carbon dioxide. Scientific reports, 13(1), 16107. doi:10.1038/s41598-023-42892-7
  6. 2. Köhler, W., Mialdun, A., Bou-Ali, M. M., & Shevtsova, V. (2023). The Measurement of Soret and Thermodiffusion Coefficients in Binary and Ternary Liquid Mixtures. International journal of thermophysics, 44(9), 140. doi:10.1007/s10765-023-03242-x
  7. 3. Seta, B., Errarte, A., Mialdun, A., Ryzhkov, I., Bou-Ali, M. M., & Shevtsova, V. (2023). Cross diffusion governs an oscillatory instability in a ternary mixture with the Soret effect. PCCP. Physical chemistry chemical physics, 25(23), 15715-15728. doi:10.1039/D3CP01848B
  8. 4. Mialdun, A., Yasnou, V., Barakhovskaia, E., Glushchuk, A., & Shevtsova, V. (2023). Measurement of Diffusion of Atmospheric Gases in a Liquid Perfluoro Compound by Means of an Optical Technique. The Journal of Physical Chemistry. B, 127(15), 3584-3595. doi:10.1021/acs.jpcb.3c01524
  9. 5. Vailati, A., Bataller, H., Bou-Ali, M., Carpinetti, M., Cerbino, R., Croccolo, F., Egelhaaf, S., Giavazzi, F., Giraudet, C., Guevara-Carrion, G., Horváth, D., KÖhler, W., Mialdun, A., Porter, J., Schwarzenberger, K., Shevtsova, V., & De Wit, A. (2023). Diffusion in liquid mixtures. npj Microgravity, 9, 1.
  10. 6. Gaponenko, Y., Yasnou, V., Mialdun, A., Bou-Ali, M. M., Nepomnyashchy, A., & Shevtsova, V. (2022). Variety of flow patterns in a liquid bridge subjected to a gas stream. Philosophical transactions - Royal Society. Mathematical, Physical and engineering sciences, 381(2245). doi:10.1098/rsta.2022.0079
  11. 7. Gaponenko, Y., Yano, T., Nishino, K., Matsumoto, S., & Shevtsova, V. (2022). Pattern selection for convective flow in a liquid bridge subjected to remote thermal action. Physics of fluids, 34(9), 092102. doi:10.1063/5.0101901
  12. 8. Errarte, A., Schraml, M., Köhler, W., Shevtsova, V., Bou-Ali, M., & Mialdun, A. (2022). Thermophysical, Optical, and Mass Transport Properties of C 60 Fullerene Solutions in Toluene and Tetralin. Journal of chemical and engineering data, 67(9), 2160-2173. doi:10.1021/acs.jced.2c00140
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