111 postdoc-molecular-dynamics-simulation positions at University of Melbourne in Australia
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of Population and Global Health Salary:Level A– $80,258 – $108,906 p.a. plus 17% super Lead simulation modeling for the SHINE Program at the Population Interventions Unit. Opportunity to shape health policy
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dynamics of the F-pilus during the conjugation process remains lacking. The University of Melbourne (UoM) project will investigate molecular mechanisms of the bacterial conjugation process using cryoEM
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microscopes in their research. Work in a collaborative and dynamic team. Salary packaging, subsidised health and wellbeing services, fitness and cultural clubs, Myki discounts, and a 25% discount on graduate
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, and a 25% discount on graduate courses to our staff and their immediate families! About the Role The Research Fellow will join a dynamic project team focused on exploring the evolution and maintenance
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writing new and engaging web content, prioritizing customer experience (CX) . Creating content to suit new web layouts and information architectures. Who we are looking for We're in search of a dynamic
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conceptualization and specification of models Analyses of data external to the core simulation model to generate model inputs (e.g. smoothing survey data estimates, forecasting trends) Estimation of health system
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our team as a Laboratory Technician, where you'll play a vital role in providing technical support for our dynamic undergraduate practical teaching program. Based primarily in the First Year Biology
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(atomic, molecular and optical physics, condensed matter or quantum physics). Research experience in light-matter interactions and quantum physics in solid state, atomic molecular and optical or ion
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to employ the density functional theory, machine learning interatomic potential, molecular dynamic simulations, and Monte Carlo simulations for the much-needed knowledge of how some typical solute atoms
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structures can be studied by modelling the gas-phase dynamics of the various carbon structures in conditions mimicking the interstellar medium. Project goals: Optimise carbon structures using simulations