1. Ivanov, L.I., Zemskov, V.S., Kubasov, V.N., Pimenov, V.N., Belokurova, I.N., Gurov, K.P., Demina, E.V., Titkov, A.N., and Shul’pina, I.L., Plavleniye, kristallizatsiya i fazoobrazovaniye v nevesomosti (Melting, Crystallization and Phase Formation in Microgravity), Moscow: Nauka, 1979.

2. Zemskov, V.S., Raukhman, M.R., and Shalimov, V.P., Microgravity effect on the uniformity of semiconductor crystals grown on space vehicles by directional solidification. Results and prospects of research in Inst. Metal. Russ. Acad. Sci., Poverkhn., Rentgen., Sinkhrotron., Neitron. Issled., 2001, no. 9, pp. 41–47.

3. Paton, B.Ye., Asnis, Ye.A., Zabolotin, S.P., et al., Preparation of advanced materials in space, Space Sci. Technol., 2002, vol. 8, pp. 15–18.

4. Mazzoni, S., Shevtsova, V., Mialdun, A., Melnikov, D., Gaponenko, Yu., Lyubimova, T., and Saghir, M.Z., Vibrating liquids in space, Europhys. News, 2010, vol. 41, no. 5, pp.14–16.

5. Fedyushkin, A., Bourago, N., Polezhaev, V., and Zharikov, E., The influence of vibration on hydrodynamics and heatmass transfer during crystal growth, J. Cryst. Growth, 2005, vol. 275, nos. 1–2, pp. 1557–1563.