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A grain-size driven transition in the deformation mechanism in slow snow compression
Sundu, K., Ottersberg, R., Jaggi, M., & Löwe, H. (2024). A grain-size driven transition in the deformation mechanism in slow snow compression. Acta Materialia, 262, 119359 (10 pp.). https://doi.org/10.1016/j.actamat.2023.119359
Community development of the snow microwave radiative transfer model for passive, active and altimetry observations of the cryosphere
Sandells, M., Picard, G., Löwe, H., Maaß, N., Winstrup, M., Brucker, L., … Murfitt, J. (2021). Community development of the snow microwave radiative transfer model for passive, active and altimetry observations of the cryosphere. In IEEE international geoscience and remote sensing symposium (IGARSS). IGARSS 2021 - 2021 IEEE international geoscience and remote sensing symposium. Proceedings (pp. 852-855). https://doi.org/10.1109/IGARSS47720.2021.9553580
Построение цифровой модели рельефа Марса по данным сканерной съемочной системы Context Camera (CTX) длядальнейшего геолого-геоморфологического анализа
Krasilnikov, S. S., Brusnikin, E. S., Zubarev, A. E., Bühler, Y., & Kuzmin, R. O. (2017). Построение цифровой модели рельефа Марса по данным сканерной съемочной системы Context Camera (CTX) длядальнейшего геолого-геоморфологического анализа. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 14(4), 265-272. https://doi.org/10.21046/2070-7401-2017-14-4-265-272
Hot-pressure sintering of low-density snow analyzed by X-ray microtomography and in situ microcompression
Schleef, S., Löwe, H., & Schneebeli, M. (2014). Hot-pressure sintering of low-density snow analyzed by X-ray microtomography and in situ microcompression. Acta Materialia, 71, 185-194. https://doi.org/10.1016/j.actamat.2014.03.004
Time-lapse X-ray microtomography of new snow densification
Schleef, S., Löwe, H., & Schneebeli, M. (2013). Time-lapse X-ray microtomography of new snow densification. In Applications of recent advances in CT imaging (pp. 301-303). ICTMS.
Simulating creep of snow based on microstructure and the anisotropic deformation of ice
Theile, T., Löwe, H., Theile, T. C., & Schneebeli, M. (2011). Simulating creep of snow based on microstructure and the anisotropic deformation of ice. Acta Materialia, 59(18), 7104-7113. https://doi.org/10.1016/j.actamat.2011.07.065
Analysis and optimization of the sliding properties of luge steel blades on ice (P111)
Fauve, M., & Rhyner, H. (2008). Analysis and optimization of the sliding properties of luge steel blades on ice (P111). In M. Estivalet & P. Brisson (Eds.), The Engineering of Sport 7 (pp. 579-586). https://doi.org/10.1007/978-2-287-09411-8_68
Microwave L-band emission of freezing soil
Schwank, M., Stähli, M., Wydler, H., Leuenberger, J., Mätzler, C., & Flühler, H. (2004). Microwave L-band emission of freezing soil. IEEE Transactions on Geoscience and Remote Sensing, 42(6), 1252-1261. https://doi.org/10.1109/tgrs.2004.825592