Lankhaar, BoyBoyLankhaarVlemmings, WouterWouterVlemmingsSurcis, GabrieleGabrieleSurcisvan Langevelde, Huib JanHuib Janvan LangeveldeGroenenboom, Gerrit C.Gerrit C.Groenenboomvan der Avoird, AdAdvan der Avoird2020-10-062020-10-062018978-11071924541743-9213http://hdl.handle.net/20.500.12386/27600Maser observations of both linearly and circularly polarized emission have provided unique information on the magnetic field in the densest parts of star forming regions, where non-maser magnetic field tracers are scarce. While linear polarization observations provide morphological constraints, magnetic field strengths are determined by measuring the Zeeman splitting in circularly polarized emission. Methanol is of special interest as it is one of the most abundant maser species and its different transitions probe unique areas around the protostar. However, its precise Zeeman-parameters are unknown. Experimental efforts to determine these Zeeman-parameters have failed. Here we present quantum-chemical calculations of the Zeeman-parameters of methanol, along with calculations of the hyperfine structure that are necessary to interpret the Zeeman effect in methanol. We use this model in re-analyzing methanol maser polarization observations. We discuss different mechanisms for hyperfine-state preference in the pumping of torsion-rotation transitions involved in the maser-action.STAMPAenConference paper10.1017/S17439213180006862-s2.0-85060086800https://www.cambridge.org/core/journals/proceedings-of-the-international-astronomical-union/article/quantumchemical-calculations-revealing-the-effects-of-magnetic-fields-on-methanol-masers/B0301AA5A1C88D062A1A497E8D4D3A6C2018IAUS..336...23LFIS/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