A New Window on Photosynthesis: Ultrafast Coherence Dynamics in Biomolecules and Semiconductor Nanostructures. Recent research has indicated that the remarkable efficiency of energy capture and transfer in photosynthesis may be due to the effects of quantum coherence, which is an intrinsically non-classical phenomenon. We will investigate these effects in biological and nanofabricated systems using ultrafast laser spectroscopy . An understanding of these energy transfer processes may open the d ....A New Window on Photosynthesis: Ultrafast Coherence Dynamics in Biomolecules and Semiconductor Nanostructures. Recent research has indicated that the remarkable efficiency of energy capture and transfer in photosynthesis may be due to the effects of quantum coherence, which is an intrinsically non-classical phenomenon. We will investigate these effects in biological and nanofabricated systems using ultrafast laser spectroscopy . An understanding of these energy transfer processes may open the door to the development to a range of new technologies, including clean and virtually limitless energy sources that convert solar energy directly into useful power and quantum computers that will revolutionize our ability to process information.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882580
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Laser facility for quantum optics, imaging, and fabrication. The laser facility will play a role in advancing high-profile leading-edge Australian research underpinning a diverse range of technologies, from quantum communications and quantum computing, to biomedical imaging, fibre sensing and nanofabrication.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668398
Funder
Australian Research Council
Funding Amount
$177,900.00
Summary
Advanced Microwave Facility for Quantum-Atom Optics. Atoms can be controlled using light in visible and infra-red regions, as well as electromagnetic waves of longer wavelength in the microwave (MW) and radiofrequency (RF) part of the spectrum. We presently use optical radiation to control atoms at the quantum level where they can behave like waves and can interact with light to store and manipulate information. The MW and RF facility will extend our abilities and enable more complete control of ....Advanced Microwave Facility for Quantum-Atom Optics. Atoms can be controlled using light in visible and infra-red regions, as well as electromagnetic waves of longer wavelength in the microwave (MW) and radiofrequency (RF) part of the spectrum. We presently use optical radiation to control atoms at the quantum level where they can behave like waves and can interact with light to store and manipulate information. The MW and RF facility will extend our abilities and enable more complete control of the atoms, which will help us develop the first generation quantum technology. This will enable the creation of quantum devices such as atom lasers, atom interferometers and quantum information networks for communication and ultra-sensitive measurement applications.Read moreRead less
Quantum and classical imaging with light and atoms. Powerful new methods will be developed to extract greater information from optical and quantum imaging systems. These methods will be applied to important problems in biomedical and industrial optical and x-ray imaging and to experiments which test the foundations of quantum physics. Our work will help maintain Australia's strong international profile in optics and in optical imaging, while providing a professional and broad training environm ....Quantum and classical imaging with light and atoms. Powerful new methods will be developed to extract greater information from optical and quantum imaging systems. These methods will be applied to important problems in biomedical and industrial optical and x-ray imaging and to experiments which test the foundations of quantum physics. Our work will help maintain Australia's strong international profile in optics and in optical imaging, while providing a professional and broad training environment for our best and brightest graduate students.Read moreRead less