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Snow entrainment: avalanche interaction with an erodible substrate
Bartelt, P., Christen, M., Bühler, Y., Caviezel, A., & Buser, O. (2018). Snow entrainment: avalanche interaction with an erodible substrate. In International snow science workshop proceedings 2018 (pp. 716-720).
Snow avalanche flow-regime transitions induced by mass and random kinetic energy fluxes
Bartelt, P., Meier, L., & Buser, O. (2011). Snow avalanche flow-regime transitions induced by mass and random kinetic energy fluxes. Annals of Glaciology, 52(58), 159-164. https://doi.org/10.3189/172756411797252158
The principle of minimum entropy production and snow structure
Bartelt, P., & Buser, O. (2004). The principle of minimum entropy production and snow structure. Journal of Glaciology, 50(170), 342-352. https://doi.org/10.3189/172756504781829945
Dispersive pressure and velocity fluctuations in avalanches – reply to comment by K. Kelfoun and T. Davies on "a random kinetic energy model for rock avalanches: eight case studies"
Bartelt, P., & Buser, O. (2011). Dispersive pressure and velocity fluctuations in avalanches – reply to comment by K. Kelfoun and T. Davies on "a random kinetic energy model for rock avalanches: eight case studies". Journal of Geophysical Research F: Earth Surface, 116, F01015 (3 pp.). https://doi.org/10.1029/2010JF001956
The SFISAR quasi two-dimensional model
Bartelt, P., & Gruber, U. (1998). The SFISAR quasi two-dimensional model. In C. B. Harbitz (Ed.), Norwegian Geotechnical Institute report. SAME Snow Avalanche Modelling, Mapping, and Warning in Europe (pp. 39-42).
Powder cloud eruptions – Where is the air reservoir and blow-out motor in the Rankine half-body? Comment on "Role of pore pressure gradients in sustaining frontal particle entrainment in eruption currents: the case of powder snow avalanches" by M. Y. Loug
Bartelt, P., & Buser, O. (2012). Powder cloud eruptions – Where is the air reservoir and blow-out motor in the Rankine half-body? Comment on "Role of pore pressure gradients in sustaining frontal particle entrainment in eruption currents: the case of powder snow avalanches" by M. Y. Louge et al. Journal of Geophysical Research F: Earth Surface, 117, F02015 (3 pp.). https://doi.org/10.1029/2012JF002333
The underestimated role of the stauchwall in full-depth avalanche release
Bartelt, P., Pielmeier, C., Margreth, S., Harvey, S., & Stucki, T. (2012). The underestimated role of the stauchwall in full-depth avalanche release. In ISSW proceedings. International snow science workshop proceedings 2012 (pp. 127-133).
Plume formation in powder snow avalanches
Bartelt, P., Bühler, Y., Buser, O., & Ginzler, C. (2013). Plume formation in powder snow avalanches. In F. Naaim-Bouvet, Y. Durand, & R. Lambert (Eds.), ISSW proceedings. International snow science workshop proceedings 2013 (pp. 576-582).
Dissipated work, stability and the internal flow structure of granular snow avalanches
Bartelt, P., Buser, O., & Kern, M. (2005). Dissipated work, stability and the internal flow structure of granular snow avalanches. Journal of Glaciology, 51(172), 125-138. https://doi.org/10.3189/172756505781829638
Fluctuation-dissipation relations for granular snow avalanches
Bartelt, P., Buser, O., & Platzer, K. (2006). Fluctuation-dissipation relations for granular snow avalanches. Journal of Glaciology, 52(179), 631-643. https://doi.org/10.3189/172756506781828476
Reply to "Discussion of "The relation between dilatancy, effective stress and dispersive pressure in granular avalanches" by P. Bartelt and O. Buser (DOI: 10.1007/s11440-016-0463-7)" by Richard Iverson and David L. George (DOI: 10.1007/s11440-016-0502-4)
Bartelt, P., & Buser, O. (2016). Reply to "Discussion of "The relation between dilatancy, effective stress and dispersive pressure in granular avalanches" by P. Bartelt and O. Buser (DOI: 10.1007/s11440-016-0463-7)" by Richard Iverson and David L. George (DOI: 10.1007/s11440-016-0502-4). Acta Geotechnica, 11(6), 1469-1473. https://doi.org/10.1007/s11440-016-0503-3
The relation between dilatancy, effective stress and dispersive pressure in granular avalanches
Bartelt, P., & Buser, O. (2016). The relation between dilatancy, effective stress and dispersive pressure in granular avalanches. Acta Geotechnica, 11(3), 549-557. https://doi.org/10.1007/s11440-016-0463-7
Overcoming the stauchwall: Viscoelastic stress redistribution and the start of full-depth gliding snow avalanches
Bartelt, P., Feistl, T., Bühler, Y., & Buser, O. (2012). Overcoming the stauchwall: Viscoelastic stress redistribution and the start of full-depth gliding snow avalanches. Geophysical Research Letters, 39, L16501 (6 pp.). https://doi.org/10.1029/2012GL052479
Formation of levees and en-echelon shear planes during snow avalanche run-out
Bartelt, P., Glover, J., Feistl, T., Bühler, Y., & Buser, O. (2012). Formation of levees and en-echelon shear planes during snow avalanche run-out. Journal of Glaciology, 58(211), 980-992. https://doi.org/10.3189/2012JoG11J011
Frictional relaxation in avalanches
Bartelt, P., & Buser, O. (2010). Frictional relaxation in avalanches. Annals of Glaciology, 51(54), 98-104. https://doi.org/10.3189/172756410791386607
Granulometric investigations of snow avalanches
Bartelt, P., & McArdell, B. W. (2009). Granulometric investigations of snow avalanches. Journal of Glaciology, 55(193), 829-833. https://doi.org/10.3189/002214309790152384
Avalanche dynamics by Newton. Reply to comments on avalanche flow models based on the concept of random kinetic energy
Bartelt, P., & Buser, O. (2018). Avalanche dynamics by Newton. Reply to comments on avalanche flow models based on the concept of random kinetic energy. Journal of Glaciology, 64(243), 165-170. https://doi.org/10.1017/jog.2018.1
Modelling cohesion in snow avalanche flow
Bartelt, P., Vera Valero, C., Feistl, T., Christen, M., Bühler, Y., & Buser, O. (2015). Modelling cohesion in snow avalanche flow. Journal of Glaciology, 61(229), 837-850. https://doi.org/10.3189/2015JoG14J126
Calculating dense-snow avalanche runout using a Voellmy-fluid model with active/passive longitudinal straining
Bartelt, P., Salm, B., & Gruber, U. (1999). Calculating dense-snow avalanche runout using a Voellmy-fluid model with active/passive longitudinal straining. Journal of Glaciology, 45(150), 242-254. https://doi.org/10.3189/S002214300000174X
Dynamic magnification factors for tree blow-down by powder snow avalanche air blasts
Bartelt, P., Bebi, P., Feistl, T., Buser, O., & Caviezel, A. (2018). Dynamic magnification factors for tree blow-down by powder snow avalanche air blasts. Natural Hazards and Earth System Sciences, 18(3), 759-764. https://doi.org/10.5194/nhess-18-759-2018
 

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