GULLIEUSZIK, MARCOMARCOGULLIEUSZIKMAGRIN, DEMETRIODEMETRIOMAGRINGREGGIO, DAVIDEDAVIDEGREGGIORAGAZZONI, RobertoRobertoRAGAZZONINASCIMBENI, VALERIOVALERIONASCIMBENIBERGOMI, MariaMariaBERGOMIBIONDI, FEDERICOFEDERICOBIONDICHINELLATO, SIMONETTASIMONETTACHINELLATODIMA, MARCOMARCODIMAFARINATO, JACOPOJACOPOFARINATOMARAFATTO, LucaLucaMARAFATTOVIOTTO, VALENTINAVALENTINAVIOTTOMUNARI, MATTEOMATTEOMUNARIPAGANO, IsabellaIsabellaPAGANOSICILIA, DanielaDanielaSICILIABASSO, StefanoStefanoBASSOBORSA, FrancescoFrancescoBORSAGHIGO, MauroMauroGHIGOSPIGA, DanieleDanieleSPIGABandy, ThimotyThimotyBandyBenz, WillyWillyBenzBrändli, MathiasMathiasBrändliBruno, GiordanoGiordanoBrunoDe Roche, ThierryThierryDe RochePiazza, DanieleDanielePiazzaRieder, MartinMartinRiederBrandeker, AlexisAlexisBrandekerKlebor, MaximilianMaximilianKleborMogulsky, ValeryValeryMogulskySchweitzer, MarioMarioSchweitzerWieser, MatthiasMatthiasWieserErikson, AndersAndersEriksonRauer, HeikeHeikeRauer2020-05-202020-05-20201697815106018710277-786Xhttp://hdl.handle.net/20.500.12386/25016Thermal effects in PLATO are analyzed in terms of uniform temperature variations, longitudinal and lateral temperature gradients. We characterize these effects by evaluating the PSF centroid shifts and the Enclosed Energy variations across the whole FoV. These patterns can then be used to gauge the thermal behavior of each individual telescope in order to improve the local photometric calibration across the PLATO field of view. <P />ELETTRONICOenConference paper10.1117/12.22329982-s2.0-84991406675000385794100087https://www.spiedigitallibrary.org/conference-proceedings-of-spie/9904/1/Thermal-effects-on-PLATO-point-spread-function/10.1117/12.2232998.full?SSO=12016SPIE.9904E..31GFIS/05 - ASTRONOMIA E ASTROFISICA