1. A Model for the Formation of Eskers Hewitt, Ian J.; Creyts, Timothy T. 2019 Articles GeophysicsGlaciologyGlacial landformsEskersIce sheets
2. Enhanced surface melting of the Fennoscandian Ice Sheet during periods of North Atlantic cooling Boswell, Steven M.; Toucanne, Samuel; Pitel-Roudaut, Mathilde; Creyts, Timothy T.; Eynaud, Frédérique; Bayon, Germain 2019 Articles GeophysicsGlaciologyIce sheetsClimatic changes
3. The Importance of Icelandic Ice Sheet Growth and Retreat on Mantle CO2 Flux Armitage, John J.; Ferguson, David J.; Petersen, Kenni D.; Creyts, Timothy T. 2019 Articles GeophysicsGlaciologyVolcanismMagmatismClimatic changesIce sheets
4. Complex Basal Thermal Transition Near the Onset of Petermann Glacier, Greenland Chu, Wing Yin; Schroeder, Dustin M.; Seroussi, Helene; Creyts, Timothy T.; Bell, Robin E. 2018 Articles GeophysicsGlaciologyIce sheets--Mathematical modelsIce mechanics
5. Formation of ice eddies in subglacial mountain valleys Meyer, Colin R.; Creyts, Timothy T. 2017 Articles GeophysicsEddiesIce--DynamicsGlacial landformsIce sheets
6. Overturned folds in ice sheets: Insights from a kinematic model of traveling sticky patches and comparisons with observations Wolovick, Michael J.; Creyts, Timothy T. 2016 Articles Ice--DynamicsFormations (Geology)Ice sheetsGeophysicsPhysical geography
7. Rerouting of subglacial water flow between neighboring glaciers in West Greenland Chu, Wing Yin; Creyts, Timothy T.; Bell, Robin E. 2016 Articles GlaciersHydrologyIce--DynamicsGeophysicsPhysical geography
8. Similarity of organized patterns in driving and basal stresses of Antarctic and Greenland ice sheets beneath extensive areas of basal sliding Sergienko, O. V.; Creyts, Timothy T.; Hindmarsh, R. C. A. 2014 Articles Ice mechanicsIce sheetsGeophysicsPhysical geography
9. Identification and control of subglacial water networks under Dome A, Antarctica Wolovick, Michael Joseph; Bell, Robin E.; Creyts, Timothy T.; Frearson, Nicholas P. 2013 Articles GeophysicsGeomorphology
10. Where to find 1.5 million year old ice for the IPICS “Oldest Ice” ice core Fischer, H.; Severinghaus, J.; Brook, E.; Wolff, E.; Albert, M.; Alemany, O.; Arthern, R.; Bentley, C.; Blankenship, D.; Chappellaz, J.; Creyts, Timothy T.; Dahl-Jensen, D.; Dinn, M.; Frezzotti, M.; Fujita, S.; Gallee, H.; Hindmarsh, R.; Hudspeth, D.; Jugie, G.; Kawamura, K.; Lipenkov, V.; Miller, H.; Mulvaney, R.; Parrenin, F.; Pattyn, F.; Ritz, C.; Schwander, J.; Steinhage, D.; van Ommen, T.; Wilhelms, F. 2013 Articles GeophysicsGeomorphology
11. Preliminary firn-densification model with 38-site dataset Spencer, M. K.; Alley, Richard B.; Creyts, Timothy T. 2001 Articles GeophysicsGeomorphology
12. Diffusion of stable isotopes in polar firn and ice: the isotope effect in firn diffusion Johnsen, Sigfús J.; Clausen, Henrik B.; Cuffey, Kurt M.; Hoffmann, Georg; Creyts, Timothy T. 2000 Articles GeophysicsGeomorphology