Precision inertial sensing with cold atoms. Many advances in our technology-driven society rely on precision measurement. The project will provide the Australian industrial and government sectors with new and better inertial sensors to measure acceleration, rotation and gravity. The technology will find application in navigation, defence, mineral exploration, earth science and fundamental physics.
Expectations and commitments in the Australia-USA alliance. This project aims to investigate the gap between the high expectations of mutual support and the lack of detailed security commitments in the Australia-US Alliance. The project intends to use a focused approach that captures thematic aspects of the alliance through project frames and historical slices across time. Expected outcomes can advance understanding of how alliances operate as security institutions. The outcomes can help to prom ....Expectations and commitments in the Australia-USA alliance. This project aims to investigate the gap between the high expectations of mutual support and the lack of detailed security commitments in the Australia-US Alliance. The project intends to use a focused approach that captures thematic aspects of the alliance through project frames and historical slices across time. Expected outcomes can advance understanding of how alliances operate as security institutions. The outcomes can help to promote a more informed national conversation about the costs and benefits of Australia's security relationship with the United States of America (USA) and contribute to debates over the future of the Australia-USA Alliance during a period of strategic uncertainty.Read moreRead less
Developing Australia's legal response to military and security applications of nanotechnology. A critical regulatory gap exists for military applications of nanotechnology under international law. This project will provide a conceptual framework and policy options to develop Australia's legal response to the use of nanotechnology in military and security settings through collaborations with experts in the United States.
InterFET and East Timorese independence. InterFET was the first international military campaign led by Australia since WW2, and its largest deployment since Vietnam. It also marked a crucial moment in East Timor's transition to independence. Yet there is no significant scholarly research on the troops who served, nor has there been any substantive scholarly analysis of the InterFET deployment itself. The central aim of this project is thus to investigate the latter by means of the former. It aim ....InterFET and East Timorese independence. InterFET was the first international military campaign led by Australia since WW2, and its largest deployment since Vietnam. It also marked a crucial moment in East Timor's transition to independence. Yet there is no significant scholarly research on the troops who served, nor has there been any substantive scholarly analysis of the InterFET deployment itself. The central aim of this project is thus to investigate the latter by means of the former. It aims to provide a substantive scholarly analysis of InterFET primarily through means of an oral history of participants. The project endeavours to dramatically enhance Australian and international understanding of this seminal event and what it signified in military, political, social and personal terms.Read moreRead less
Discipline, Morale and Winning Wars: Understanding the Relationships Between Discipline and Combat Performance in Low-Intensity Conflict. Discipline and morale are key elements in combat performance, particularly in Low-Intensity Conflict (LIC). This project examines the relationships between discipline, morale and combat performance using the Australian Army in Vietnam as a case study. It provides insights into better understanding and managing discipline and morale to produce and sustain comba ....Discipline, Morale and Winning Wars: Understanding the Relationships Between Discipline and Combat Performance in Low-Intensity Conflict. Discipline and morale are key elements in combat performance, particularly in Low-Intensity Conflict (LIC). This project examines the relationships between discipline, morale and combat performance using the Australian Army in Vietnam as a case study. It provides insights into better understanding and managing discipline and morale to produce and sustain combat performance. It assists the Army to avoid the negative effects of failures in discipline and morale that produced the My Lai massacre and the Abu Ghraib fiasco. It also helps position Australia internationally as a contributor to the better understanding of LIC, and fills a gap in Australian historiography of war.Read moreRead less
Understanding Low-Intensity Conflict. Since 1945, Low-Intensity Conflict (LIC) has become the dominant form of warfare. Conventional armies have a poor record of success in fighting LIC. This project uses the records of the Australian Army's operations in the Vietnam War to better understand it's operational performance there and to unearth insights into the conduct of LIC. The project has the potential to reduce casualties, both military and civilian, and assist the Army in selecting new war-fi ....Understanding Low-Intensity Conflict. Since 1945, Low-Intensity Conflict (LIC) has become the dominant form of warfare. Conventional armies have a poor record of success in fighting LIC. This project uses the records of the Australian Army's operations in the Vietnam War to better understand it's operational performance there and to unearth insights into the conduct of LIC. The project has the potential to reduce casualties, both military and civilian, and assist the Army in selecting new war-fighting technologies, designing training and developing doctrine for future LIC. The project will raise Australia's profile in theorising about this troubling but increasingly common form of warfare.Read moreRead less
Emerging technologies of warfare as a challenge to the law of armed conflict: cyber-attacks, robotics and nanotechnology. In order to reduce suffering in war, international law places limits on the ways in which the adversary can be harmed. This project will assess how the law fares in dealing with emerging technologies, such as hostile uses of computer networks, robotics and nanotechnology. It will provide guidance to policy makers on how the law can be improved.
Leveraging power and influence on the United Nations Security Council. This project examines the fundamental problem of how elected members on the Security Council can influence Council decision-making and norm development. Assembling a research team of international lawyers and political scientists, the project seeks to provide a rigorous, multi-disciplinary evaluation of why and when non-permanent Council members have succeeded in having impact on the Council's decision-making process. Drawing ....Leveraging power and influence on the United Nations Security Council. This project examines the fundamental problem of how elected members on the Security Council can influence Council decision-making and norm development. Assembling a research team of international lawyers and political scientists, the project seeks to provide a rigorous, multi-disciplinary evaluation of why and when non-permanent Council members have succeeded in having impact on the Council's decision-making process. Drawing on recent experiences of elected members, including Australia, the project is expected to advance evidence-based and empirically grounded policy proposals designed to increase the capacity of elected members to exercise power and influence over the Council's agenda and policy.Read moreRead less
Fatigue Life Assessment of Structures under Realistic Loading Conditions. The project will develop a new methodology for the assessment of fatigue life of structures subjected to realistic loading conditions. This new methodology is based on recent advances in experimental techniques which make possible, for the first time, the investigation of the crack opening/closure mechanisms and the crack driving force for large numbers of fatigue cycles (>1 million) of variable amplitude, representative o ....Fatigue Life Assessment of Structures under Realistic Loading Conditions. The project will develop a new methodology for the assessment of fatigue life of structures subjected to realistic loading conditions. This new methodology is based on recent advances in experimental techniques which make possible, for the first time, the investigation of the crack opening/closure mechanisms and the crack driving force for large numbers of fatigue cycles (>1 million) of variable amplitude, representative of real-world applications. The project will expand Australia’s knowledge base and research capabilities in structural life prognosis. It will increase the competitiveness of domestic products and industries, fostering international collaborations and leadership of Australia in this strategically important area of research.Read moreRead less
Harnessing opto-acoustic interactions for on-chip optical isolation. The project aims to develop practical on-chip photonic isolators – one-way optical circuits – by harnessing light–sound interactions in a nanoscale platform novel in its materials, design and mechanism. The project should develop new nanofabrication techniques and transform understanding of the physics of one-way photonic processes. Expected outcomes include enhanced design and fabrication capabilities for photonic circuits, ul ....Harnessing opto-acoustic interactions for on-chip optical isolation. The project aims to develop practical on-chip photonic isolators – one-way optical circuits – by harnessing light–sound interactions in a nanoscale platform novel in its materials, design and mechanism. The project should develop new nanofabrication techniques and transform understanding of the physics of one-way photonic processes. Expected outcomes include enhanced design and fabrication capabilities for photonic circuits, ultra-compact, high-performance optical isolators and circulators that shield sensitive optical components, and a suite of theoretical tools for describing propagation and noise in these devices. These new high performance photonic circuits should benefit telecommunications, radar, defence, and sensing applications. Read moreRead less