Status of technological development on ECLAIRs camera onboard the SVOM space mission

C. Amoros; B. Houret; K. Lacombe; V. Waegebaert; J.-L. Atteia; A. Bajat; L. Bautista; I. Belkacem; S. Bordon; B. Cordier; M. Galliano; O. Godet; F. Gonzalez; Ph. Guillemot; S. Maestre; P. Mandrou; W. Marty; R. Pons; D. Rambaud; P. Ramon

doi:10.1117/12.2313821

6 July 2018 Status of technological development on ECLAIRs camera onboard the SVOM space mission

C. Amoros, B. Houret, K. Lacombe, V. Waegebaert, J.-L. Atteia, A. Bajat, L. Bautista, I. Belkacem, S. Bordon, B. Cordier, M. Galliano, O. Godet, F. Gonzalez, Ph. Guillemot, S. Maestre, P. Mandrou, W. Marty, R. Pons, D. Rambaud, P. Ramon

Author Affiliations +

Proceedings Volume 10699, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray; 106995K (2018) https://doi.org/10.1117/12.2313821
Event: SPIE Astronomical Telescopes + Instrumentation, 2018, Austin, Texas, United States

Abstract

ECLAIRs is a 2-D coded-mask imaging telescope on-board the Sino-French SVOM space mission, in order to detect and locate precisely Gamma-ray bursts (GRBs) in the 4 - 150 keV energy range. Its design has been drawn by the central objective of achieving a low-energy threshold of 4 keV. In that respect, the camera is formed by 6400 Schottky CdTe detectors organized on elementary hybrid matrices of 4 × 8 pixels, which will be polarized up to -450V and operated at - 20°C. The remarkable low-energy threshold homogeneity required for the detection plane has been achieved thanks to an extensive characterization of the innovative hybrid module composed of 32 CdTe detectors, associated to a very lownoise 32-channel ASIC chip, and both assembled on specific ceramics. In this paper, we outline the SVOM space mission, and then describe the ECLAIRs instrument. We continue by focusing on the different elements of the camera prototype named “ProtoDPIX”. Indeed, this is a very important step for the project because it is the first time we are working in Camera Mode with 800 detectors. Then, we present some spectral results obtained from this, to show its great spectroscopic performance, after explaining the setup. Thus, we performed a large spectral measurements campaign at the regulated temperature of -20°C, using several calibrated radioactive sources (241Am and 57Co). Moreover, we will resume the future steps of development of the final flight model camera and the different constraints due to the short planning and the very challenging technical requirements. In conclusion, thanks to this prototype we are in the process of validating a complete detection chain, from the detectors to the backend electronics, and from mechanical study through thermal design. Finally, we are checking the performance to be ready for integration, functional tests and calibration stages.

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C. Amoros, B. Houret, K. Lacombe, V. Waegebaert, J.-L. Atteia, A. Bajat, L. Bautista, I. Belkacem, S. Bordon, B. Cordier, M. Galliano, O. Godet, F. Gonzalez, Ph. Guillemot, S. Maestre, P. Mandrou, W. Marty, R. Pons, D. Rambaud, and P. Ramon "Status of technological development on ECLAIRs camera onboard the SVOM space mission", Proc. SPIE 10699, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray, 106995K (6 July 2018); https://doi.org/10.1117/12.2313821

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