122 phd-in-computational-mechanics-"St"-"FEMTO-ST" positions at University of Adelaide in Australia
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
expertise and relevant knowledge in the above mentioned research fields To be successful you will need: PhD in Chemical Engineering or an equivalent combination of relevant experience and/or education
-
which to work. To be successful you will need: A PhD in Human Geography Experience in the conduct of scholarly, applied and industry collaborative research projects and consultancies. Significant teaching
-
Medical School which is uncovering genetic causes of cerebral palsy. The Neurogenetics Research Group is a multidisciplinary research group studying genetic causes and underlying molecular mechanisms
-
to interpret and explain complex documentation, such as grant guidelines, award conditions and contracts. Demonstrated high-level competence of standard office computer software and the ability to adapt quickly
-
. The successful applicant will work on decision making for anomaly detection, behaviour analysis and surveillance decisions, under the direction of A/Prof Claudia Szabo in the School of Computer and Mathematical
-
need: A PhD in Molecular Biology, Cell Biology, Genetics, Biotechnology, or a related area. Expertise and interest in cancer and/or stem cell biology and associated techniques. Outstanding academic track
-
reputable academic analytics-related journals (FT-50/ A* ABDC journals). To be successful you will need: Possess a PhD in Business Analytics or related area (including Accounting Analytics, Finance
-
institutes such as the Institute of Photonics and Advanced Sensing and the School of Physics. To be successful you will need: A PhD in photonics and/or optical trapping development Experience in one of more of
-
on the new curriculum, see the AU Website https://adelaideuni.edu.au/study/degrees/bachelor-of-arts-archaeology-and-classical-studies/ To be successful you will need: A PhD in Ancient Greek or Roman History
-
conducts field surveys and sampling across a national network of over 900 one-hectare plots, to collect soil and vegetation specimens and data. The TERN Ecosystem Surveillance field program enables