Sea ice deformation is a crucial process in the polar climate system and, thus, it is an important cross-cutting theme for all disciplines of the interdisciplinary research expedition MOSAiC. Because sea ice deformation is highly localized and intermittent, drift and deformation with a high spatial and temporal resolution and a large spatial coverage are required for a comprehensive description of the sea ice dynamics. We provide a regularly gridded, high-resolution drift and deformation dataset that can be used for several potential applications. Drift fields were obtained from Sentinel-1, HH polarization SAR images acquired in enhanced wide mode. These had a pixel resolution of 50 m in Polar Stereographic North projection (latitude of true scale: 70 N, center longitude: 45 W). We used an ice-tracking algorithm introduced by Thomas et al. (2008, 2011) and modified by Hollands and Dierking (2011) to derive drift from sequential pairs. Typically, the time between two scenes was one day, with a few exceptions of 2-3 days, and the size of the scenes was on average 200 x 200 km. Images are available for the entire study period, except for the time between 14 January and 15 March 2020, when the ship was north of the latitudinal coverage of the satellite. The resulting drift data set was defined on a regular grid with a spatial resolution of 700 m. Next, we calculate the spatial derivatives from the regularly spaced drift field following von Albedyll et al. (2021). Divergence, convergence, shear, and total deformation are then derived from the spatial derivatives of the velocity field. To reduce noise in the divergence fields, we filter the drift data with a directional filter that detects the direction with the smallest variation at each pixel and smooths along, but not across this orientation, with a 1-d kernel. The direction is chosen to minimize the standard deviation in a neighborhood of 7 pixels. This way, noise is reduced while preserving the strong gradients in the velocity field that are indicative of deformation. We provide the filtered divergence variable together with the unfiltered divergence values. For better distribution, the drift and deformation data were re-grided to one common grid in North Stereographic Projection (bounding box corresponding to 180/60°N: -3314693.24 -3314693.24 3314693.24 3314693.24) with 700 m resolution and combined into one per time step.

Data is provided in NetCDF format and in the Polar Stereographic North projection (latitude of true scale: 70 N, center longitude: 45 W, EPSG:3413). All files are projected to the same grid with a spatial resolution of 700 m. There is one file available for each time step (indicated in the file name). Each file contains drift and deformation information.For geographic reference, the files contain:• latitude• longitude• projected x-coordinate (of the polar stereographic projection)• projected y-coordinate (of the polar stereographic projection)For the sea ice drift, the following variables are available:• sea_ice_x_velocity (u, given along the x-direction)• sea_ice_y_velocity (v, given along the y-direction)• sea_ice_speed (absolute speed)• direction_of_sea_ice_velocity (direction)• sea_ice_drift_reliability_flag (indicates the quality of the drift estimates)For the deformation, there are the following variables:• the spatial derivatives (dudx, dudy, dvdx, dvdy)• divergence,• shear,• total deformation,• vorticity,• filtered divergence