CoAuthors

Matthias Raynal (CLS, France); Jeremie Aublanc (CLS, France); Salvatore Dinardo (CLS, France); Thomas Moreau (CLS, France); Pierre Féménias (ESA, Italy); Franck Borde (ESA, Netherlands); Claire Maraldi (CNES, France); Nicolas Picot (CNES, France)

The Copernicus Sentinel-3A mission was successfully launched in February 2016. It is a multi-instrument mission to measure surface topography, sea- and land-surface temperature, ocean colour and land colour with high-end accuracy and reliability. To reach the data coverage required by the Copernicus service, its twin Sentinel-3B was launched on 25th of April 2018. After 5 months in a tandem flight configuration (Sentinel-3B 30 seconds ahead of Sentinel-3A), Sentinel-3B was moved to its final orbit, the same as Sentinel-3A but shifted by 140°.

The Jason-CS-A/Sentinel-6A launch is planned for November 2020, this new Copernicus constellation (Jason-CS-B/Sentinel-6B launch expected in 2026) will ensure the continuity with Jasons satellites, providing on the same low inclination orbit high precision measurements to monitor the sea surface topography dynamic and long term evolutions. The onboard altimeter Poseidon4 belongs to a new generation of Delay Doppler instrument. Thanks to the SAR interleaved mode, it will provide both LRM and SARM co-located measurements.

In the frame of the Mission Performance Centre (MPC), a consortium defined by ESA and EUMETSAT in charge of the qualification and the monitoring of the instrument performances, the high level of quality of the Sentinel-3 Topography Mission (STM) datasets was demonstrated. Now, working on the residual small remaining errors (presented by Raynal et al, OSTST 2019), objectives are to improve the processing.

The aim of this presentation is to show the progress made in the understanding of Sentinel-3 processing limitations. These progress are essential to prepare a seamless transition between Jason-3 and Jason-CS/Sentinel-6 missions.