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Witteveen, J. P. (2021). Containerless Metal Single-Crystal Growth via Electromagnetic Levitation. PhD Thesis. Enschede: University of Twente.Search in Google Scholar
Royer, Z. L., Tackes, C., LeSar R., & Napolitano, R. E. (2013). Coil Optimization for Electromagnetic Levitation Using a Genetic Like Algorithm. Journal of Applied Physics, 113, 214901.Search in Google Scholar
Nycz, B., Malinski, Ł., & Przyłucki, R. (2021). Influence of Selected Model Parameters on the Electromagnetic Levitation Melting Efficiency. Applied Sciences, 11, 3827.Search in Google Scholar
Nycz, B., Przyłucki, R., & Maliński, Ł. (2023). Comparison of characteristics for two selected inductors for levitation melting. In Proceedings of the 14th International Conference on Measurement “Measurement 2023”. Smolenice, Slovakia.Search in Google Scholar
Husley, W. J. (1963). The Design and Performance of Levitation Melting Coils. Union Carbide Nuclear Co. Y-12 Plant, Oak Ridge, Tenn.Search in Google Scholar
Fromm, E., & Jehn, H. (1965). Electromagnetic Forces and Power Absorption in Levitation Melting. British Journal of Applied Physics, 16, 653.Search in Google Scholar
Okress, E. C., Wroughton, D. M., Comentez, G., Brace, P. H., & Kelly, J. C. R. (1952). Electromagnetic Levitation of Solid and Molten Metals. Journal of Applied Physics, 23, 545.Search in Google Scholar
Witteveen, J. P., van Gastel, R., van Houselt, A., & Zandvliet, H. J. W. (2021). 3D Modeling of Electromagnetic Levitation Coils. Current Applied Physics, 32, 45–49.Search in Google Scholar
Sassonker, I., & Kuperman, A. (2020). Electro-Mechanical Modeling of Electromagnetic Levitation Elting System Driven by a Series Resonant Inverter with Experimental Validation. Energy Conversion and Management, 208, 112578.Search in Google Scholar
Priede, J., Baptiste, L. C. B., Gleijm, G., & van Westrum, J. A. F. M. S. (2006). Apparatus and Method for Levitation of an Amount of Conductive Material. World Patent WO2006021245A1, 2 March 2006.Search in Google Scholar
Silamiķelis, V., Apsītis, A., Sniķeris, J., Pumpurs, A., & Biggs, S. (2023). Simultaneous measurement of the lifting force, joule heating and axial/radial components of EM field inside an electromagnetic levitation coil. In Proceedings of the 14th International Conference on Measurement “Measurement 2023”. Smolenice, Slovakia.Search in Google Scholar
Sniķeris, J., Apsītis, A., Pumpurs, A., Lācis, U., Kravchenko, S., & Silamiķelis, V. (2023). Experimental Observation of the Vertical Displacement between Heating and Levitation Regions in an Electromagnetic Levitation Coil. J. Phys. D: Appl. Phys., 57, 095002.Search in Google Scholar
