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dc.contributor.advisorMeiksin, Avery
dc.contributor.advisorHeavens, Alan
dc.contributor.advisorTittley, Eric
dc.contributor.authorReynolds, Simon
dc.date.accessioned2019-01-15T11:04:15Z
dc.date.available2019-01-15T11:04:15Z
dc.date.issued2010-11-25
dc.identifier.urihttp://hdl.handle.net/1842/33320
dc.description.abstractThis thesis presents the results of a study into modelling the ionisation of heavy elements in the intergalactic medium (IGM) by solving the time-dependent ionisation rate equations. An algorithm has been developed which calculates ionisation fractions of the first 30 elements (hydrogen to zinc) as a function of time, given the gas density and temperature, and the ultra-violet radiation intensity. The results from this algorithm are compared against the standard assumption of ionisation equilibrium used in previous models of IGM metals. Firstly, the new time-dependent algorithm is used to model the ionisation in uniform volumes of gas, with constant temperature, density and background radiation. Four models are performed, with different values of the ionisation parameter. The models demonstrate the timescales over which different metals in the IGM can be out of ionisation equilibrium, to investigate the conditions under which the time-dependent algorithm should be used in future modelling of metals in the IGM. The models show that for ionisation parameters U = 0.01–0.3 many metals observed in quasar absorption spectra could be out of equilibrium for up to 107 or a few times 108 years when subject to a new hard quasar spectrum. The metals’ equilibrium ionisation fractions found in these time-dependent results are compared against the time-independent solutions found by Cloudy (Ferland et al., 1998, PASP, 110, 761) for the same models. Comparing to this well-established programme shows the algorithm is accurate for the most common elements, but disagreement is found for the rarer elements with incomplete atomic data. An application of the new time-dependent ionisation algorithm to a full cosmolog- ical N-body simulation is then presented. The algorithm is used to study the effects of a young quasar on the ionisation structure of metals in the surrounding IGM. An independent simulation of a quasar turning on during the Epoch of Reionisation, performed with a joint particle-mesh and radiative-transfer code (Tittley & Meiksin, 2007, MNRAS, 380, 1369), is used to provide the density, temperature and UV intensity inputs for the time-dependent algorithm. Non-equilibrium effects in the metal ionisation are seen to last for significant lengths of time, as the IGM reacts slowly to the rapid change in UV radiation. Mock quasar absorption line spectra are then generated by passing lines of sight through the simulation volume. Using the ionisation fraction results from the new algorithm, transmission functions with metal absorption features are produced, and the effect of non-equilibrium ionisation on the CII and CIV column densities and their ratio are presented.en
dc.language.isoenen
dc.publisherThe University of Edinburghen
dc.subjectintergalactic mediumen
dc.titleTime-dependent ionisation of metals in the intergalactic mediumen
dc.typeThesis or Dissertationen
dc.type.qualificationlevelDoctoralen
dc.type.qualificationnamePhD Doctor of Philosophyen


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