Curtin University is one of Australia’s most collaborative tertiary institutions and a prominent name in the Nature Index. Established in 1986 in Western Australia, the university has expanded around the Indian Ocean rim, and now has campuses in Australia, Malaysia, Singapore, Dubai and Mauritius.
In recent years, Curtin has risen rapidly in the world rankings, owing largely to its research performance. The university is placed in the top percentile of tertiary institutions worldwide in the 2019 Academic Ranking of World Universities, and is ranked second in the world for Mineral and Mining Engineering in the 2020 QS World University Rankings by Subject.
The national evaluation, Excellence in Research Australia, ranked more than 95 per cent of Curtin’s assessed research areas as world standard or above.
Long term, the university aims to strike a balance between demand-driven research, which solves defined problems for industry and society, and researcher-driven research, which is characterised by a desire to push the limits of understanding.
Curtin is also a key partner in some of the world’s biggest astronomy projects. The Curtin-led Murchison Widefield Array (MWA) is a low-frequency radio telescope capable of reaching deep into space and far back through time, making the night sky visible with better resolution than ever before. The array is a precursor project to an even larger telescope, the Square Kilometre Array (SKA), to be built in Western Australia and in South Africa. When completed, the SKA will give scientists a better understanding of the Universe in its first moments.
Curtin’s extensive computing capabilities provide the support that large-scale, data intensive projects like these require. The Curtin Institute for Computation boasts 150 researchers in the fields of simulation, modelling, optimisation, data analytics and visualisation. They have access to world-class facilities including the Pawsey Supercomputing Centre – a joint venture between CSIRO and Western Australia’s four public universities – which houses the world’s only real-time supercomputing service dedicated to telescopes used in astronomy research.
Curtin leads many more international research collaborations, spanning data science, renewable energy, defence, health sciences, materials and climate. Partners include, but aren’t limited to, NASA, BHP, Cisco, Woodside, Royal Australian Navy and The University of Aberdeen.
The Greater Curtin Master Plan will transform Curtin’s sprawling 114-hectare Perth campus into a major Asia-Pacific innovation precinct by 2030. The plan will drive collaboration and commercialisation, positioning Western Australia at the forefront of the knowledge economy. It will become the home of many forward-thinking companies and researchers – a critical mass that can be leveraged to form new research opportunities.
For more information on Curtin University’s research capabilities, visit research.curtin.edu.au.
Curtin University retains sole responsibility for content ? 2020 Curtin University.
1 December 2018 - 30 November 2019
Subject/journal group: All
The table to the right includes counts of all research outputs for Curtin University published between 1 December 2018 - 30 November 2019 which are tracked by the Nature Index.
Hover over the donut graph to view the FC output for each subject. Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title.
Note: Articles may be assigned to more than one subject area.
Outputs by subject (Share)
|Earth & Environmental Sciences||70||21.61|
Highlight of the month
Clearing up the origins of Saharan glass
? Sylvester Adams/Getty
Shockwaves from a comet strike may have created a mysterious glass found only in the Great Sand Sea of Egypt.
Libyan Desert Glass formed nearly 30 million years ago under high temperatures that some believe were generated by a meteorite exploding at the Earth’s atmosphere — an event known as an airburst.
By using electron microscopy to analyse the structure of zircon grains in Libyan Desert Glass samples, a team that included researchers from Curtin University could estimate the pressures and temperatures that created the mineral.
The orientation of the crystals in the zircon provided evidence that it contained reidite, a rare mineral associated with meteorite impacts as it forms under a sudden immense pressure, such as a massive shock. This suggests the glass is not the product of an airburst, but of a comet striking the Earth.
Understanding how such glasses of disputed origin emerged can help inform government policies on, and planned responses to, hazards from near-Earth objects.
- Geology 47, 609–612 (2019). doi: 10.1130/G45974.1
See more research highlights from Curtin University
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1 Feb 2019
26 Dec 2018
31 Oct 2018
28 Sep 2018
Top articles by Altmetric score in current window
Proceedings of the National Academy of Sciences of the United States of America
Earth and Planetary Science Letters
1 December 2018 - 30 November 2019
International vs. domestic collaboration by Share
- 33.5% Domestic
- 66.5% International
Note: Hover over the graph to view the percentage of collaboration.
Top 10 domestic collaborators by Share (106 total)
- Curtin University, Australia
- Domestic institution
The University of Western Australia (UWA), Australia
The Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia
Australian National University (ANU), Australia
University of New South Wales (UNSW Sydney), Australia
The University of Adelaide (Adelaide Uni), Australia
The University of Queensland (UQ), Australia
Swinburne University of Technology, Australia
Government of Western Australia, Australia
The University of Melbourne (UniMelb), Australia
Murdoch University, Australia
Top 10 international collaborators by Share (1368 total)
- Curtin University, Australia
- Foreign institution
Chinese Academy of Sciences (CAS), China
China University of Geosciences (CUG), China
University of Alberta (U of A), Canada
Swedish Museum of Natural History, Sweden
Nanjing Tech University (NanjingTech), China
Huazhong Agricultural University (HZAU), China
Stanford University, United States of America (USA)
The University of Arizona (Arizona), United States of America (USA)
National Aeronautics and Space Administration (NASA), United States of America (USA)
Max Planck Society, Germany
Note: Collaboration is determined by the fractional count (Share), which is listed in parentheses.
Affiliated joint institutions and consortia
- ARC Centre for Perceptive and Intelligent Machines in Complex Environments, Australia
- ARC Centre of Excellence for All Sky Astrophysics in 3 Dimensions (ASTRO 3D), Australia
- ARC Centre of Excellence for All-sky Astrophysics (CAASTRO), Australia
- ARC Centre of Excellence for Core to Crust Fluid Systems (CCFS), Australia
- ARC Centre of Excellence for Creative Industries and Innovation (CCI), Australia
- ARC Centre of Excellence in Antimatter-Matter Studies (CAMS), Australia
- Advanced Resource Characterisation Facility (ARCF), Australia
- Australian Resources Research Centre (ARRC), Australia
- Australian Scientific Instruments (ASI), Australia
- Australian and New Zealand International Ocean Discovery Program Consortium (ANZIC), Australia
- Avian Phylogenomics Project, China
- Centre for Crop and Disease Management (CCDM), Australia
- Centre for Exploration Targeting (CET), Australia
- International Centre for Radio Astronomy Research (ICRAR), Australia
- Skoltech Center for Hydrocarbon Recovery (SCHR CREI), Russia
- Terrestrial Ecosystem Research Network (TERN), Australia
- Wisconsin Astrobiology Research Consortium (WARC), United States of America (USA)
- Wound Management Innovation CRC (WMI CRC), Australia
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