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dc.contributor.authorHult Roos, Andreas
dc.date.accessioned2019-05-15T10:08:29Z
dc.date.available2019-05-15T10:08:29Z
dc.date.issued2019-05-15
dc.identifier.isbn978-91-7833-487-2
dc.identifier.urihttp://hdl.handle.net/2077/59861
dc.description.abstractThis thesis presents experimental investigations of multi-electron and multi-electron-multi-ion coincidence measurements of samples in the gas phase utilizing a versatile time-of-flight magnetic bottle spectrometer technique. These investigations of multiply ionized atomic and molecular species provide valuable information on, and understanding of, ionization processes and dissociation mechanisms highly relevant to the development of electronic structure theories. Paper I investigated the double valence photoionization spectra of methyl halides. From this study, the lowest onset and vertical double ionization energies were obtained for CH3F, CH3Cl, and CH3I, and used to test an empirical rule-of-thumb for the double ionization of molecules. The study concluded that the apparent inter-charge distance may be derived by applying the rule-of-thumb on molecules similar to the methyl halide structure group. Paper II studied the dissociation of D2O by photoelectron-photoion coincidence measurements. The experiments yielded ion mass-selected photoionization spectra, and dissociation breakdown diagrams, with improved statistics than previous studies of this kind. Minor fragments were detected and modulations in the yield of the fragments were observed of the B2B2 state, with the implication that the fragmented system retains memory of the vibrational structure before the dissociation pathway is irreversibly chosen. Measurements of the C2A1 state revealed high kinetic energy OD+ fragments. Paper III concerned the dissociation mechanisms of ICN upon core site-, and orbital-specific photoionization. The weights of the multiply charged fragmentation channels were obtained from the decay of initial core vacancies, and partial Auger spectra were obtained in coincidence with the doubly charged final products, which revealed the relative extent of the different fragmentation channels in the complete single Auger spectrum of ICN. Papers IV and V investigated the relative abundance of double Auger decay in molecules upon core vacancy formation. The quantity of double compared to single Auger decay was found to surpass 20% in some of the heavier molecules, which is a significant amount and undoubtedly contradicts the past assumption that such processes are negligible. The amount of double Auger decay follows a linear trend with the number of available valence electrons on the nearest neighbouring atoms. It was also found that the 1s or 2p nature of the initial core vacancy had no significant effect on the amount of double Auger decay. The investigation of multiple Auger decay was expanded in Paper VI towards the amount of triple Auger decay in CO and CO2. The quantity of triple compared to single Auger decay in CO and CO2 upon an initial C 1s core vacancy was determined as 0.82% and 1.44%, respectively, and upon an O 1s vacancy as 0.89% and 1.0%, respectively. The percentage of triple Auger decay also follows a linear trend related to the number of available valence electrons.sv
dc.language.isoengsv
dc.relation.haspartValence double ionization electron spectra of CH3F, CH3Cl and CH3I, A. Hult Roos, J. H. D. Eland, D. Koulentianos, R. J. Squibb, L. Karlsson, and R. Feifel, Chemical Physics 491, 42-47 (2017).::doi::10.1016/j.chemphys.2017.04.002sv
dc.relation.haspartDissociations of water ions after valence and inner-valence ionization, A. Hult Roos, J. H. D. Eland, J. Andersson, R. J. Squibb, and R. Feifel, The Journal of Chemical Physics 149, 204307 (2018).::doi::10.1063/1.5055593sv
dc.relation.haspartDissociation of multiply charged ICN by Coulomb explosion, J. H. D. Eland, R. Singh, J. D. Pickering, C. S. Slater, A. Hult Roos, J. Andersson, S. Zagorodskikh, R. J. Squibb, M. Brouard, and R. Feifel, The Journal of Chemical Physics 145, 074303 (2016).::doi::10.1063/1.4960686sv
dc.relation.haspartRelative extent of double and single Auger decay in molecules containing C, N and O atoms, A. Hult Roos, J. H. D. Eland, J. Andersson, S. Zagorodskikh, R. Singh, R. J. Squibb, and R. Feifel, Physical Chemistry Chemical Physics 18, 25705-25710 (2016).::doi::10.1039/C6CP02414Asv
dc.relation.haspartAbundance of molecular triple ionization by double Auger decay, A. Hult Roos, J. H. D. Eland, J. Andersson, R. J. Squibb, D. Koulentianos, O. Talaee, and R. Feifel, Scientific Reports 8, 16405 (2018).::doi::10.1038/s41598-018-34807-8sv
dc.relation.haspartRelative extent of triple Auger decay in CO and CO2, A. Hult Roos, J. H. D. Eland, J. Andersson, M. Wallner, R. J. Squibb, and R. Feifel, Physical Chemistry Chemical Physics, Accepted 16 April, 2019.::doi::10.1039/C9CP01415Bsv
dc.titleMulti-Electron and Multi-Ion Coincidence Spectroscopy of Single-Photon Ionization Processes in Moleculessv
dc.typeText
dc.type.svepDoctoral thesiseng
dc.gup.mailandreas.hult.roos@physics.gu.sesv
dc.gup.mailadde.h.roos@gmail.comsv
dc.type.degreeDoctor of Philosophysv
dc.gup.originGöteborgs universitet. Naturvetenskapliga fakultetensv
dc.gup.departmentDepartment of Physics ; Institutionen för fysiksv
dc.gup.defenceplaceOnsdagen den 5 juni 2019, kl. 13:15, PJ-salen, Fysikgården 2, Göteborgsv
dc.gup.defencedate2019-06-05
dc.gup.dissdb-fakultetMNF


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