Authors: Laureijs, R., Racca, G.D., Mellier, Y., Musi, P., Brouard, L., Boenke, T., Gaspar Venancio, Maiorano, E., Short, A., Strada, Altieri, B., Buenadicha, G., Dupac, X., Gomez Alvarez, Hoar, J., Kohley, Vavrek, Rudolph, Schmidt, M., Amiaux, Aussel, H., Berthe, Cropper, Cuillandre, J.-C., Dabin, C., Dinis, Nakajima, Maciaszek, Scaramella, da Silva, Tereno, I., Williams, O.R., Zacchei, Azzollini, Bernardeau, F., Brinchmann, Brockley-Blatt, Castander, Cimatti, Conselice, Ealet, Fosalba, Gillard, W., Guzzo, Hoekstra, Hudelot, Jahnke, K., Kitching, Miller, Mohr, Percival, Pettorino, V., Rhodes, Sanchez, Sauvage, Serrano, S., Teyssier, Weller, Zoubian, Lystrup, Perrin, M.D., Batalha, N., Siegler, Tong, E.C.
Venue: Space Telescopes and Instrumentation 2020: Optical, Infrared, and Millimeter Wave
Type: Publication
Abstract: International audience; Euclid, an ESA mission designed to characterise dark energy and dark matter, passed its Mission Critical Design Review in November 2018. It was demonstrated that the project is ready to start integration and test of the main systems, and that it has the ability to fulfil its top-level mission requirements. In addition, based on the performances at M-CDR, the scientific community has verified that the science requirements can be achieved for the Weak Lensing and Galaxy Clustering dark energy probes, namely a dark energy F...
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Topics: 
Systems engineering
Aerospace engineering
Remote sensing
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