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The microwave snow grain size: a new concept to predict satellite observations over snow-covered regions
Picard, G., Löwe, H., Domine, F., Arnaud, L., Larue, F., Favier, V., … Royer, A. (2022). The microwave snow grain size: a new concept to predict satellite observations over snow-covered regions. AGU Advances, 3(4), e2021AV000630 (19 pp.). https://doi.org/10.1029/2021AV000630
X-ray tomography-based microstructure representation in the Snow Microwave Radiative Transfer model
Sandells, M., Löwe, H., Picard, G., Dumont, M., Essery, R., Floury, N., … Mätzler, C. (2022). X-ray tomography-based microstructure representation in the Snow Microwave Radiative Transfer model. IEEE Transactions on Geoscience and Remote Sensing, 60(2), 4301115 (15 pp.). https://doi.org/10.1109/TGRS.2021.3086412
Editorial: About the relevance of snow microstructure study in cryospheric sciences
Montagnat, M., Chambon, G., Gaume, J., Hagenmuller, P., & Sandells, M. (2020). Editorial: About the relevance of snow microstructure study in cryospheric sciences. Frontiers in Earth Science, 8, 619509 (3 pp.). https://doi.org/10.3389/feart.2020.619509
Ice spheres as model snow: tumbling, sintering, and mechanical tests
Willibald, C., Scheuber, S., Löwe, H., Dual, J., & Schneebeli, M. (2019). Ice spheres as model snow: tumbling, sintering, and mechanical tests. Frontiers in Earth Science, 7, 229 (13 pp.). https://doi.org/10.3389/feart.2019.00229
Upscaling ice crystal growth dynamics in snow: rigorous modeling and comparison to 4D X-ray tomography data
Krol, Q., & Löwe, H. (2018). Upscaling ice crystal growth dynamics in snow: rigorous modeling and comparison to 4D X-ray tomography data. Acta Materialia, 151, 478-487. https://doi.org/10.1016/j.actamat.2018.03.010
Experimental and micro-CT study on the oil distribution in laboratory grown sea ice
Lan Salomon, M., Arntsen, M., Dang Phuong, N., Sönke, M., Sadnick, M. O. ’, Petrich, C., … Wiese, M. (2017). Experimental and micro-CT study on the oil distribution in laboratory grown sea ice. In Proceedings of the 24th international conference on Port and Ocean engineering under Arctic conditions (p. (13 pp.).
Quantitative snow stratigraphy and stability derived from high-resolution penetrometry
Proksch, M., Reuter, B., Löwe, H., Schweizer, J., & Schneebeli, M. (2014). Quantitative snow stratigraphy and stability derived from high-resolution penetrometry. In ISSW proceedings. International snow science workshop proceedings 2014 (pp. 196-201).
Visualization of three-dimensional snow: how to use it in snow education
Heggli, M., Jaggi, M., Pinzer, B., Steiner, S., Theile, T., & Schneebeli, M. (2009). Visualization of three-dimensional snow: how to use it in snow education. In J. Schweizer & A. van Herwijnen (Eds.), ISSW proceedings. International snow science workshop proceedings 2009 (pp. 62-66).
Modeling the changes in microstructure of snow during metamorphism
Brown, R. L., Satyawali, P. K., Lehning, M., & Bartelt, P. (2001). Modeling the changes in microstructure of snow during metamorphism. Cold Regions Science and Technology, 33(2-3), 91-101. https://doi.org/10.1016/S0165-232x(01)00032-5