Durham University

Department of Physics

Staff profile

Publication details for Prof Richard Massey

Cropper, M., Pottinger, S., Niemi, S.-M., Denniston, J., Cole, R., Szafraniec, M., Mellier, Y., Berthé, M., Martignac, J., Cara, C., di Giorgio, A.M., Sciortino, A., Paltani, S., Genolet, L., Fourmand, J.-J., Charra, M., Guttridge, P., Winter, B., Endicott, J., Holland, A., Gow, J., Murray, N., Hall, D., Amiaux, J., Laureijs, R., Racca, G., Salvignol, J.-C., Short, A., Lorenzo Alvarez, J., Kitching, T., Hoekstra, H. & Massey, R. (2014), VIS: the visible imager for Euclid, Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series 9143: Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series. SPIE, 0.

Author(s) from Durham

Abstract

Euclid-VIS is the large format visible imager for the ESA Euclid space mission in their Cosmic Vision program, scheduled for launch in 2020. Together with the near infrared imaging within the NISP instrument, it forms the basis of the weak lensing measurements of Euclid. VIS will image in a single r+i+z band from 550-900 nm over a field of view of ~0.5 deg2. By combining 4 exposures with a total of 2260 sec, VIS will reach to V=24.5 (10σ) for sources with extent ~0.3 arcsec. The image sampling is 0.1 arcsec. VIS will provide deep imaging with a tightly controlled and stable point spread function (PSF) over a wide survey area of 15000 deg2 to measure the cosmic shear from nearly 1.5 billion galaxies to high levels of accuracy, from which the cosmological parameters will be measured. In addition, VIS will also provide a legacy dataset with an unprecedented combination of spatial resolution, depth and area covering most of the extra-Galactic sky. Here we will present the results of the study carried out by the Euclid Consortium during the period up to the Preliminary Design Review. © (2014) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.