Vassallo, DanieleDanieleVassalloCAROLO, ELENAELENACAROLOFARINATO, JACOPOJACOPOFARINATOBERGOMI, MariaMariaBERGOMIBonavita, M.M.BonavitaCarlotti, A.A.CarlottiD'ORAZI, VALENTINAVALENTINAD'ORAZIGREGGIO, DAVIDEDAVIDEGREGGIOMAGRIN, DEMETRIODEMETRIOMAGRINMESA, DINODINOMESAPINNA, EnricoEnricoPINNAPUGLISI, Alfio TimothyAlfio TimothyPUGLISISTANGALINI, MARCOMARCOSTANGALINIVerinaud, C.C.VerinaudVIOTTO, VALENTINAVALENTINAVIOTTO2020-11-252020-11-25201697815106020140277-786Xhttp://hdl.handle.net/20.500.12386/28531In this article we report the results of a comprehensive simulation program aimed at investigating coronagraphic capabilities of SHARK-NIR, a camera selected to proceed to the final design phase at Large Binocular Telescope. For the purpose, we developed a dedicated simulation tool based on physical optics propagation. The code propagates wavefronts through SHARK optical train in an end-to-end fashion and can implement any kind of coronagraph. Detection limits can be finally computed, exploring a wide range of Strehl values and observing conditions.ELETTRONICOenConference paper10.1117/12.22341312-s2.0-84992596279000385794000029https://www.spiedigitallibrary.org/conference-proceedings-of-spie/9911/1/An-extensive-coronagraphic-simulation-applied-to-LBT/10.1117/12.2234131.short2016SPIE.9911E..0YVFIS/05 - ASTRONOMIA E ASTROFISICA