Dynamics of Interacting Bose Gases/Fluids in Atomic and Condensed Matter Systems. This research would raise the profile of Australian theoretical physics in two key areas of fundamental research. The work on correlated electron fluids will be directly related to the breakdown of the quantum Hall effect, which is used to maintain the resistance standard, with one possible outcome being the improvement of the accuracy of this standard. The work on the dynamics of dilute gas Bose-Einstein condensat ....Dynamics of Interacting Bose Gases/Fluids in Atomic and Condensed Matter Systems. This research would raise the profile of Australian theoretical physics in two key areas of fundamental research. The work on correlated electron fluids will be directly related to the breakdown of the quantum Hall effect, which is used to maintain the resistance standard, with one possible outcome being the improvement of the accuracy of this standard. The work on the dynamics of dilute gas Bose-Einstein condensates will promote understanding of such systems and propose knew methods of exploring this novel state of matter. Drawing analogies between these two diverse subjects will promote a greater understanding of both research fields. The work would be in collaboration with internationally renowned research groups.Read moreRead less
The first critical tests of many-body and correlated Quantum Electro-Dynamics (QED) in medium-Z atomic systems. Major difficulties are being encountered in the computation of high-order and correlated terms of Quantum Electro-Dynamical effects in atoms. We will make the first measurements for medium-Z atoms critically sensitive to two-electron QED, and the first tests of QED in this region accurate to 1%. This accuracy will allow new insight into two-electron systems, theoretical approaches, and ....The first critical tests of many-body and correlated Quantum Electro-Dynamics (QED) in medium-Z atomic systems. Major difficulties are being encountered in the computation of high-order and correlated terms of Quantum Electro-Dynamical effects in atoms. We will make the first measurements for medium-Z atoms critically sensitive to two-electron QED, and the first tests of QED in this region accurate to 1%. This accuracy will allow new insight into two-electron systems, theoretical approaches, and recent observed discrepancies between QED theory and experiment. This proposal follows recent successful experimental work using new capabilities of Electron-Beam Ion Traps (EBITs). Our recent publications have proven that this novel approach can yield new insight into the interaction of light with matter.Read moreRead less