Broadening Choice and Increasing Diversity in Public Schools. Currently, most families are limited to the public school in their catchment area, meaning the area in which they can afford to live. This leads to socio-economically and ethnically homogenous schools and entrenches disadvantage, as well as denying students the crucial life lessons that flow from being part of a diverse student body. This project aims to investigate a model for allocating public school places that integrates catchment ....Broadening Choice and Increasing Diversity in Public Schools. Currently, most families are limited to the public school in their catchment area, meaning the area in which they can afford to live. This leads to socio-economically and ethnically homogenous schools and entrenches disadvantage, as well as denying students the crucial life lessons that flow from being part of a diverse student body. This project aims to investigate a model for allocating public school places that integrates catchment areas. The expected outcome would be a system that gives families a wider choice, enabling them to enrol in out-of-area schools, while ensuring that allocations remain fair, equitable and balanced, and also delivering benefits such as achieving a desired level of diversity in student populations within schoolsRead moreRead less
Testing strategy-proofness in matching markets: an experimental study. This project seeks to test and improve matching algorithms by investigating the effect of advice on strategy-proofness. Matching algorithms are used to solve allocation problems in designed markets (eg school or house allocation problems). Many of the algorithms employed are strategy-proof: participants never gain from strategising, that is, from lying about their preferences. Strategy-proofness had been seemingly validated b ....Testing strategy-proofness in matching markets: an experimental study. This project seeks to test and improve matching algorithms by investigating the effect of advice on strategy-proofness. Matching algorithms are used to solve allocation problems in designed markets (eg school or house allocation problems). Many of the algorithms employed are strategy-proof: participants never gain from strategising, that is, from lying about their preferences. Strategy-proofness had been seemingly validated by experimental research, but new evidence suggests that participants could be prone to follow wrong advice and therefore lie. In order to improve the performance of designed markets, the project proposes to further test strategy-proofness by investigating how advice can affect truth-telling in strategy-proof algorithms and whether learning can counteract or complement the effect of advice.Read moreRead less
Advanced Materials from Automated Synthesis of Sequence-Defined Polymers. The project aims to develop industrially scalable and environmentally friendly methods for synthesis of sequence-defined multiblock copolymers (polymer chains containing segments of different polymer types) using automated synthesis methods. The materials to be explored will be largely based on renewable biomass-derived monomeric building blocks. Such polymers are able to undergo microphase separation into spatially period ....Advanced Materials from Automated Synthesis of Sequence-Defined Polymers. The project aims to develop industrially scalable and environmentally friendly methods for synthesis of sequence-defined multiblock copolymers (polymer chains containing segments of different polymer types) using automated synthesis methods. The materials to be explored will be largely based on renewable biomass-derived monomeric building blocks. Such polymers are able to undergo microphase separation into spatially periodic compositional patterns, thereby providing access to a vast range of nano-engineered materials. This would enable design and synthesis of new advanced materials, making use of renewable resources and supporting the circular economy, with diverse potential applications ranging from nanomedicine to materials science.Read moreRead less
Ion-atom collision data for fusion energy, hadron therapy and astrophysics. This project aims to combine experimental and theoretical efforts to generate accurate data required for the development and maintenance of fusion reactors, treatment planning in hadron therapy of cancerous tumours, and modelling astrophysical phenomena. Hadron therapy has been used successfully worldwide for over a decade with Australia’s first such facility, the Bragg Centre for Proton Therapy, currently under construc ....Ion-atom collision data for fusion energy, hadron therapy and astrophysics. This project aims to combine experimental and theoretical efforts to generate accurate data required for the development and maintenance of fusion reactors, treatment planning in hadron therapy of cancerous tumours, and modelling astrophysical phenomena. Hadron therapy has been used successfully worldwide for over a decade with Australia’s first such facility, the Bragg Centre for Proton Therapy, currently under construction. Fusion reactors are a source of abundant green energy. Immense progress is being made in their construction and underlying technology. Currently, there is an urgent demand for accurate data on ion-beam collisions with atoms and molecules for the aforementioned applications. This project intends to meet this demand.Read moreRead less
Electron-molecule collisions in fusion and astrophysical plasmas. This project will apply innovative methods developed in Australia to accurately model electron collisions with diatomic hydrides. It will generate new knowledge of the dynamics underlying fundamental chemical reactions, and bring international scientists together to study the influence of molecules in plasmas more accurately than ever before. Outcomes will include essential diagnostics for fusion reactors, methods for using the Ja ....Electron-molecule collisions in fusion and astrophysical plasmas. This project will apply innovative methods developed in Australia to accurately model electron collisions with diatomic hydrides. It will generate new knowledge of the dynamics underlying fundamental chemical reactions, and bring international scientists together to study the influence of molecules in plasmas more accurately than ever before. Outcomes will include essential diagnostics for fusion reactors, methods for using the James Webb Space Telescope to study astrophysical clouds, and strengthened ties between Australia and the global plasma physics community. The significant benefits will include accelerating the development of fusion technology as an alternative to fossil fuels, and furthering our understanding of stellar evolution.Read moreRead less
Antihydrogen formation. This project aims to advance fundamental understanding of collisions involving antimatter. The dominance of matter over antimatter in the Universe is one of the most intriguing questions of today’s science. Researchers at the European Organisation for Nuclear Research (CERN) are addressing this question by creating antihydrogen and studying its properties, including the gravitational behaviour. By trapping and cooling antihydrogen positive ions, ultra-cold antihydrogen at ....Antihydrogen formation. This project aims to advance fundamental understanding of collisions involving antimatter. The dominance of matter over antimatter in the Universe is one of the most intriguing questions of today’s science. Researchers at the European Organisation for Nuclear Research (CERN) are addressing this question by creating antihydrogen and studying its properties, including the gravitational behaviour. By trapping and cooling antihydrogen positive ions, ultra-cold antihydrogen atoms can be created and used in free fall experiments at CERN. The convergent close-coupling method and threshold theory will be used to provide the necessary theoretical guidance for the experimental antihydrogen positive ion formation via low-energy positronium-antiproton and positronium-antihydrogen collisions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100176
Funder
Australian Research Council
Funding Amount
$349,987.00
Summary
Quantum studies of dissociative electron attachment to molecules. The ability to predict the outcomes of molecular collisions is a difficult, yet important, problem with many applications in science and industry. Recent work at Curtin University has led to the first complete solution of the electronic part of the scattering problem for collisions with the hydrogen molecule, a major breakthrough in the field. This project will build on this progress to accurately model the nuclear motion during c ....Quantum studies of dissociative electron attachment to molecules. The ability to predict the outcomes of molecular collisions is a difficult, yet important, problem with many applications in science and industry. Recent work at Curtin University has led to the first complete solution of the electronic part of the scattering problem for collisions with the hydrogen molecule, a major breakthrough in the field. This project will build on this progress to accurately model the nuclear motion during collisions, which will enable the first calculations of molecular dissociation processes without the use of approximations. The data which will be produced is highly sought-after in fusion energy and astrophysics applications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100964
Funder
Australian Research Council
Funding Amount
$371,000.00
Summary
Understanding and designing persuasion mechanisms. The objective of this project is to understand and design persuasion mechanisms. Persuasion is about conveying information, influencing beliefs and manipulating actions. Educational campaigns and media censorship regulations are examples of persuasion mechanisms. Existing techniques from the economics of persuasion only permit analysis of specific and limited settings. This project aims to apply the classical mechanism design approach in a novel ....Understanding and designing persuasion mechanisms. The objective of this project is to understand and design persuasion mechanisms. Persuasion is about conveying information, influencing beliefs and manipulating actions. Educational campaigns and media censorship regulations are examples of persuasion mechanisms. Existing techniques from the economics of persuasion only permit analysis of specific and limited settings. This project aims to apply the classical mechanism design approach in a novel way to model persuasion in rich and realistic settings, thus providing insights into real-world situations. It is anticipated that this will allow us to answer questions such as ‘Should an educational campaign target different consumers with different information?’ and ‘When should a government censor extreme media outlets?'.Read moreRead less
Decentralised assets trading, centralised clearing and systemic risk. This project aims to study the effect of regulating over-the-counter (OTC) financial markets on economic performance. The lack of transparency of OTC financial markets may have exacerbated the severity of the 2007-09 financial crisis. In response, regulators around the world decided to mandate centralised clearing of derivatives traded OTC, believing this would reduce system-wide risk. This project will study the regulatory ch ....Decentralised assets trading, centralised clearing and systemic risk. This project aims to study the effect of regulating over-the-counter (OTC) financial markets on economic performance. The lack of transparency of OTC financial markets may have exacerbated the severity of the 2007-09 financial crisis. In response, regulators around the world decided to mandate centralised clearing of derivatives traded OTC, believing this would reduce system-wide risk. This project will study the regulatory change’s effects on market participation, volumes of trade and prices, and the behavioural effect of shifting risk from market participants to clearinghouses. It expects to suggest remedial policies clearinghouses could implement to control market participants’ risk appetite. These can help enhance future productivity and reduce unemployment in Australia.Read moreRead less
Shedding Light on the Proton Radius Puzzle with Ultracold Helium. This project aims to shed light on an outstanding discrepancy in physics known as the proton radius puzzle, first seen in hydrogen but now being studied in helium. Capitalising on existing international collaboration between experiment and theory to exploit the advantages of ultracold helium, this project aims to determine the isotopic nuclear charge radius difference with unprecedented precision, using our state-of-the-art quantu ....Shedding Light on the Proton Radius Puzzle with Ultracold Helium. This project aims to shed light on an outstanding discrepancy in physics known as the proton radius puzzle, first seen in hydrogen but now being studied in helium. Capitalising on existing international collaboration between experiment and theory to exploit the advantages of ultracold helium, this project aims to determine the isotopic nuclear charge radius difference with unprecedented precision, using our state-of-the-art quantum electrodynamic theory. This will not only answer fundamental questions about helium atomic structure, but may also reveal new physics beyond the current Standard Model. The validation of atomic structure theory should provide benefits in applications including the realisation of more accurate atomic clocks.Read moreRead less