Long range interactions of atoms. Atomic physics is often described as both a basic and enabling discipline and the present project on long range atomic interactions fits within both of those categories. The results of the project will lead to a more thorough understanding of the details of long range atom-atom interactions. This will lead to Australian expertise making a significant contribution in a number of cutting edge areas in atomic and molecular physics.
Application of variational methods in atomic and molecular physics. Atmoic physics is both a basic an enabling science and this project will improve fundamental knowledge about the interactions of electrons and positrons with atoms and molecules. Research will be directly relevant to the activities of the National Positron Beam-Line (located at the Australian National University) which is directed to break-through research in matter-antimatter interactions and materials characterisation.
....Application of variational methods in atomic and molecular physics. Atmoic physics is both a basic an enabling science and this project will improve fundamental knowledge about the interactions of electrons and positrons with atoms and molecules. Research will be directly relevant to the activities of the National Positron Beam-Line (located at the Australian National University) which is directed to break-through research in matter-antimatter interactions and materials characterisation.
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Heat stress in the workplace: health burden and labour productivity loss. This project aims to estimate the economic loss of workplace heat exposure in Australia. The project will investigate the health services costs of occupational heat-related illnesses/injuries, explore the labour productivity loss and its costs resulting from heat stress at work, and estimate the benefits from a generic heat warning intervention for workplace heat prevention. Outcomes are expected to provide an overview of ....Heat stress in the workplace: health burden and labour productivity loss. This project aims to estimate the economic loss of workplace heat exposure in Australia. The project will investigate the health services costs of occupational heat-related illnesses/injuries, explore the labour productivity loss and its costs resulting from heat stress at work, and estimate the benefits from a generic heat warning intervention for workplace heat prevention. Outcomes are expected to provide an overview of national economic implications at present and in the future from effective heat stress control, assist the development of work place heat policies, and inform resource allocation to make Australian workplaces well prepared for likely increasing extremely hot weather.Read moreRead less