The PLATO Science Calibration and Validation Plan: Targets for the First Long-pointing Field

Konstanze Zwintz; Conny Aerts; Andrew Tkachenko; Juan Cabrera; Orlagh Creevey; Rene Heller; Nicholas Jannsen; Chen Jiang; Oleg Kochukhov; Antonino Francesco Lanza; Pierre F. L. Maxted; Sergio Messina; Andrea Miglio; Thierry Morel; Benoi{\i}t Mosser; Rhita Ouazzani; John Southworth; Matthias Ammler van-Eiff; Jeroen Audenaert; Paul G. Beck; Kevin Belkacem; Aaron Birch; Diego Bossini; Angela Bragaglia; Lorenzo Briganti; David Brown; Anko B\"orner; Cristina Chiappini; Cilia Damiani; Patrick Gaulme; Pablo Heise Huijse; Ulrike Heiter; Krysztof G. Helminiak; Mykyta Kliapets; Mikkel N. Lund; Paola Marrese; Thibault Merle; Nicola Miller; Josefina Montalban; Dinil Bose Palakkatharappil; Carsten Paproth; Isabel Rebollido Vazquez; Nena Scheller; Sophia Sulis; Amaury H. M. J. Triaud; Marica Valentini; Mathieu Vrard; Magali Deleuil; Laurent Gizon; Ana M. Heras; J. Miguel Mas-Hesse; Hugh Osborn; Isabella Pagano; Giampaolo Piotto; Don Pollacco; Roberto Raggazoni; Gavin Ramsay; Heike Rauer; Stephane Udry

arXiv:2604.04042·astro-ph.SR·April 7, 2026

The PLATO Science Calibration and Validation Plan: Targets for the First Long-pointing Field

Konstanze Zwintz, Conny Aerts, Andrew Tkachenko, Juan Cabrera, Orlagh Creevey, Rene Heller, Nicholas Jannsen, Chen Jiang, Oleg Kochukhov, Antonino Francesco Lanza, Pierre F. L. Maxted, Sergio Messina, Andrea Miglio, Thierry Morel, Benoi{\i}t Mosser, Rhita Ouazzani

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TL;DR

The paper outlines the calibration and validation plan for the PLATO mission, focusing on star selection and methods to achieve precise stellar ages for exoplanet host characterization.

Contribution

It introduces the { t scvPIC} catalogue and details the methodology for selecting calibration stars to meet PLATO's stringent scientific requirements.

Findings

01

Selection of tens of thousands of red giants for age estimation.

02

Identification of thousands of F-type pulsators for internal rotation profiling.

03

Compilation of diverse calibrators including binaries and benchmark stars.

Abstract

In order to meet the science goals of the PLATO space mission, an extensive science calibration and validation plan has been designed. This paper describes this plan, as well as the methodology adopted to select the science calibration and validation stars that have entered its input catalogue. This is the so-called {\tt scvPIC}, which is part of the general PLATO Input Catalogue (PIC) for the first selected long pointing field in the Southern Hemisphere known as LOPS2. While many of PLATO's science requirements needed dedicated stars as calibrators as discussed here, its most stringent requirement is the delivery of the age of the host stars of exoplanetary systems with an accuracy better than 10\% for a G0V star of {\it V} = 10 mag, i.e. a nearby Sun-like star. This is presently not within reach for large populations of dwarfs and subgiants in the Milky Way as it requires the models…

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