PLATO's signal and noise budget.

Authors :: Börner, Anko
Paproth, Carsten
Cabrera, Juan
Pertenais, Martin
Rauer, Heike
Mas-Hesse, J. Miguel
Pagano, Isabella
Alvarez, Jose Lorenzo
Erikson, Anders
Grießbach, Denis
Levillain, Yves
Magrin, Demetrio
Mogulsky, Valery
Niemi, Sami-Matias
Prod'homme, Thibaut
Regibo, Sara
De Ridder, Joris
Rockstein, Steve
Samadi, Reza
Serrano-Velarde, Dimitri
Source :: Experimental Astronomy. Aug2024, Vol. 58 Issue 1, p1-26. 26p.
Publication Year :: 2024
Abstract: ESA's PLATO mission aims the detection and characterization of terrestrial planets around solar-type stars as well as the study of host star properties. The noise-to-signal ratio (NSR) is the main performance parameter of the PLATO instrument, which consists of 24 Normal Cameras and 2 Fast Cameras. In order to justify, verify and breakdown NSR-relevant requirements the software simulator PINE was developed. PINE models the signal pathway from a target star to the digital output of a camera based on physical models and considers the major noise contributors. In this paper, the simulator's coarse mode is introduced which allows fast performance analyses on instrument level. The added value of PINE is illustrated by exemplary applications. [ABSTRACT FROM AUTHOR]