Atomic scale ion microscopy via laser cooling and correlated imaging. This project will develop next-generation focused ion beam microscopy and nanofabrication using a novel cold ion source based on photoionisation of a laser-cooled atom beam. The low temperature and complex internal state structure of the constituent atoms combine to allow generation of ions with unprecedented brightness and resolution. We will use three unique and innovative ideas: field ionisation of atoms in so-called 'excep ....Atomic scale ion microscopy via laser cooling and correlated imaging. This project will develop next-generation focused ion beam microscopy and nanofabrication using a novel cold ion source based on photoionisation of a laser-cooled atom beam. The low temperature and complex internal state structure of the constituent atoms combine to allow generation of ions with unprecedented brightness and resolution. We will use three unique and innovative ideas: field ionisation of atoms in so-called 'exceptional' states to reduce chromatic aberration; electron-ion correlations to enhance control of the ions at the nanoscale; and atom-atom interactions to isolate and manipulate individual ions. The new technology will enable advances in semiconductor nanofabrication and material characterisation.Read moreRead less
Detecting, preventing and responding to image-based abuse. This project aims to investigate the efficacy of digital tools and interventions to detect, prevent and respond to image-based abuse (the non-consensual creation or distribution of intimate images). Through a digital ethnography, victim and stakeholder interviews, online surveys, and an AI chatbot, the project expects to generate evidence and theory on both image-based abuse and internet governance. The expected outcomes include: increas ....Detecting, preventing and responding to image-based abuse. This project aims to investigate the efficacy of digital tools and interventions to detect, prevent and respond to image-based abuse (the non-consensual creation or distribution of intimate images). Through a digital ethnography, victim and stakeholder interviews, online surveys, and an AI chatbot, the project expects to generate evidence and theory on both image-based abuse and internet governance. The expected outcomes include: increased understanding of the responsibility of digital platforms and the drivers of image-based abuse; improved platform and service responses; enhanced industry and scholarly collaborations; and harm reduction. Expected benefits include improved laws, polices and practices to tackle image-based abuse.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC210100047
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Training Centre for Accelerated Future Crop Development . The Centre will create a new generation of leaders in the implementation of advanced gene and field technologies for the benefit of the Australian agriculture industry. We will build the workforce and foundations that will drive translation of breakthroughs in advanced breeding, phenotyping and genetic technologies into higher-yielding crops. This will increase productivity across the sector and create new markets. Our technical trai ....ARC Training Centre for Accelerated Future Crop Development . The Centre will create a new generation of leaders in the implementation of advanced gene and field technologies for the benefit of the Australian agriculture industry. We will build the workforce and foundations that will drive translation of breakthroughs in advanced breeding, phenotyping and genetic technologies into higher-yielding crops. This will increase productivity across the sector and create new markets. Our technical training programs for graduates, trainees and industry will interface with best evidence-based practices in the wider socio-economic, regulatory and environmental contexts. Coupled with community and stakeholder engagement, the Centre will redefine and secure Australia’s future in agriculture. Read moreRead less
Atomic scale imaging with high coherence electrons and ions. This project aims to combine a cold atom electron-ion source with a commercial microscope column for atomic-scale imaging in biosciences and materials science. Nanoscale imaging with electron and ion microscopy are tools for investigating the world at the atomic scale, underpinning development in modern technologies from semiconductor devices to medical treatments. This project will use ideas from laser cooling of atoms and atom optics ....Atomic scale imaging with high coherence electrons and ions. This project aims to combine a cold atom electron-ion source with a commercial microscope column for atomic-scale imaging in biosciences and materials science. Nanoscale imaging with electron and ion microscopy are tools for investigating the world at the atomic scale, underpinning development in modern technologies from semiconductor devices to medical treatments. This project will use ideas from laser cooling of atoms and atom optics to achieve new imaging modalities for time-lapse imaging of fundamental processes at the nano-scale. It will allow increasingly small scale resolution of fundamental processes at the nano-scale.Read moreRead less
High resolution ultrafast imaging with cold electrons. This project will develop atomic-scale imaging that is able to bypass the resolution limitations of modern electron microscopes. The project will investigate the physical processes underlying a new imaging source based on extracting cold electrons from laser-cooled atoms. Ultrashort pulses of cold electrons will enable time-lapse imaging of fundamental processes at the nano-scale, with applications in fundamental biosciences and materials sc ....High resolution ultrafast imaging with cold electrons. This project will develop atomic-scale imaging that is able to bypass the resolution limitations of modern electron microscopes. The project will investigate the physical processes underlying a new imaging source based on extracting cold electrons from laser-cooled atoms. Ultrashort pulses of cold electrons will enable time-lapse imaging of fundamental processes at the nano-scale, with applications in fundamental biosciences and materials science.Read moreRead less
Investigating the molecular mechanisms underlying non-visual photoreception and their implications in the treatment of human neurological disease. The ability of organisms to detect light is fundamental for survival and has been a major driver in evolution. The project will investigate the genetic origins of the various visual and non-visual systems and will explore its implications for the bioengineering of therapeutics for the treatment of neurological disease in humans.
Discovery Early Career Researcher Award - Grant ID: DE150100666
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
Quantum metrology with strongly correlated Rydberg gases. The project aims to make the world's most sensitive measurement of high-frequency electric fields, and demonstrate the first quantum-enhanced electric field measurement. It will use quantum entanglement and Rydberg atoms, excited to the very edge of the classical/quantum divide, to reach record sensitivities for fields associated with next generation ultrafast electronic, communication and radar devices. The project aims to build on the e ....Quantum metrology with strongly correlated Rydberg gases. The project aims to make the world's most sensitive measurement of high-frequency electric fields, and demonstrate the first quantum-enhanced electric field measurement. It will use quantum entanglement and Rydberg atoms, excited to the very edge of the classical/quantum divide, to reach record sensitivities for fields associated with next generation ultrafast electronic, communication and radar devices. The project aims to build on the existing Australian research strengths in photonics, atomic physics and quantum sensing, with the potential to provide a disruptive technological breakthrough in the measurement of ultra-high-frequency electric fields, and establish a high profile research effort in the field of strongly correlated quantum gases.Read moreRead less
Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant ben ....Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant benefits through expanding knowledge that will assist in controlling chemical reactions and developing technologies with improved performance, such as sensors and solar cells. Read moreRead less
Cooperation through Code: The social outcomes of blockchain technology. This project aims to show the social consequences of using distributed ledger technology, including blockchains, for compliance, registries and regulatory processes. The project expects to generate new knowledge of how technology is changing administrative coordination between government and non-government entities. Expected outcomes include evidence of how blockchain technology is being applied to specific tasks and whether ....Cooperation through Code: The social outcomes of blockchain technology. This project aims to show the social consequences of using distributed ledger technology, including blockchains, for compliance, registries and regulatory processes. The project expects to generate new knowledge of how technology is changing administrative coordination between government and non-government entities. Expected outcomes include evidence of how blockchain technology is being applied to specific tasks and whether this improves on legacy systems. In addition to advancing social research on technological change, the project should provide benefits such as fairer strategies for effective regulation through technology, and an understanding of how these technologies in turn should be governed.Read moreRead less
Net Zero Precincts: an interdisciplinary approach to decarbonising cities. This project aims to help cities and urban regions reach net zero emissions by taking the precinct as an optimal scale for urban transition. This project expects to co-create a new approach grounded in transition management and design anthropology. This will be tested in an action-oriented case study in the Monash Technology Precinct through three Living Lab experiments across energy, mobility and buildings. Expected outc ....Net Zero Precincts: an interdisciplinary approach to decarbonising cities. This project aims to help cities and urban regions reach net zero emissions by taking the precinct as an optimal scale for urban transition. This project expects to co-create a new approach grounded in transition management and design anthropology. This will be tested in an action-oriented case study in the Monash Technology Precinct through three Living Lab experiments across energy, mobility and buildings. Expected outcomes include a validated approach for net zero transitions that delivers to the real-life experiences of the precinct community of business, government, knowledge institutes and civil society. This should provide significant benefits to industry seeking to enhance community engagement for accelerating urban transitions.
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