Martinez Pillet, V.V.Martinez PilletCAUZZI, GiannaGiannaCAUZZITritschler, A.A.TritschlerHarra, L.L.HarraANDRETTA, VincenzoVincenzoANDRETTAVourlidas, A.A.VourlidasRaouafi, N.N.RaouafiAlterman, B. L.B. L.AltermanBellot Rubio, L.L.Bellot RubioCranmer, S. R.S. R.CranmerGibson, S.S.GibsonDe Groof, A.A.De GroofKo, Y. K.Y. K.KoLepri, S. T.S. T.LepriLinker, J.J.LinkerMalaspina, D. M.D. M.MalaspinaMatthews, S.S.MatthewsMüller, D.D.MüllerParenti, S.S.ParentiPetrie, G.G.PetrieSPADARO, DanieleDanieleSPADAROUgarte-Urra, I.I.Ugarte-UrraWarren, H.H.WarrenZouganelis, I.I.Zouganelis2024-03-202024-03-2020231743-9213http://hdl.handle.net/20.500.12386/34993The National Science Foundation (NSF) Daniel K. Inouye Solar Telescope (DKIST) has started operations at the summit of Haleakalā (Hawai'i). DKIST joins the nominal science phases of the NASA and ESA Parker Solar Probe and Solar Orbiter encounter missions. By combining in-situ measurements of the near-Sun plasma environment and detailed remote observations of multiple layers of the Sun, the three observatories form an unprecedented multi-messenger constellation to study the magnetic connectivity in the solar system. This work outlines the synergistic science that this multi-messenger suite enables.ELETTRONICOenConference paper10.1017/S17439213230012662-s2.0-85176235278https://www.cambridge.org/core/journals/proceedings-of-the-international-astronomical-union/article/abs/solar-physics-in-the-2020s-dkist-parker-solar-probe-and-solar-orbiter-as-a-multimessenger-constellation/7C25BADF5994745AB3BCF1AB703B4E072023IAUS..372....3MFIS/05 - ASTRONOMIA E ASTROFISICAERC sectors::Physical Sciences and Engineering::PE9 Universe sciences: astro-physics/chemistry/biology; solar systems; stellar, galactic and extragalactic astronomy, planetary systems, cosmology, space science, instrumentation