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Dynamic Properties of Mechanical Metamaterials: Optimization and Experiment. The aim of this project is to develop novel mechanical metamaterials through topology optimization for manipulating the propagation of elastic and acoustic waves. Mechanical metamaterials achieve exotic dynamic properties, which have many applications ranging from noise management and vibration control to defence. The computational tool and optimization algorithms to be developed will seamlessly integrate with additive ....Dynamic Properties of Mechanical Metamaterials: Optimization and Experiment. The aim of this project is to develop novel mechanical metamaterials through topology optimization for manipulating the propagation of elastic and acoustic waves. Mechanical metamaterials achieve exotic dynamic properties, which have many applications ranging from noise management and vibration control to defence. The computational tool and optimization algorithms to be developed will seamlessly integrate with additive manufacturing to enable the end-users to characterize, design and fabricate the next generation of mechanical metamaterials in an effective way. The outcomes of this project offer significant benefits for the long-term and sustainable development of knowledge-based economy in Australia.Read moreRead less
Nano-optics and ultra-thin materials for an infrared spectrometer-on-a-chip. Aims: This project aims to advance optical nanoresonators and ultra-thin materials in the infrared spectral region. The project aims to use this knowledge to demonstrate an infrared spectrometer on a chip.
Significance: Infrared spectroscopy is a powerful method for identifying and study matter but is carried out using instruments that are generally large, heavy, power hungry and costly.
Expected outcomes: It is expec ....Nano-optics and ultra-thin materials for an infrared spectrometer-on-a-chip. Aims: This project aims to advance optical nanoresonators and ultra-thin materials in the infrared spectral region. The project aims to use this knowledge to demonstrate an infrared spectrometer on a chip.
Significance: Infrared spectroscopy is a powerful method for identifying and study matter but is carried out using instruments that are generally large, heavy, power hungry and costly.
Expected outcomes: It is expected that this project will generate knowledge that will allow dramatic reductions in the size, weight, power consumption and cost of infrared spectrometers.
Benefits: This should allow infrared spectrometers to be used in applications for which the size/weight/power consumption/cost of current approaches prevent their use.
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