New Multidimensional Femtosecond Spectroscopic Techniques for Complex Molecular Systems. We will develop novel multidimensional nonlinear spectroscopic techniques based on sequences of femtosecond laser pulses to investigate ultrafast processes and transient species in complex molecular systems. The molecular systems will include biologically important protein molecules, complex synthetic polymers, new semiconductor materials and semiconductor quantum structures including quantum dots. This in ....New Multidimensional Femtosecond Spectroscopic Techniques for Complex Molecular Systems. We will develop novel multidimensional nonlinear spectroscopic techniques based on sequences of femtosecond laser pulses to investigate ultrafast processes and transient species in complex molecular systems. The molecular systems will include biologically important protein molecules, complex synthetic polymers, new semiconductor materials and semiconductor quantum structures including quantum dots. This information will significantly advance our understanding of fundamental dynamical processes such as energy and charge transfer in macro- and supra-molecules, transport of oxygen in animals, photosynthesis, advanced photo-active devices, and ultrafast processes in new semiconductor materials and semiconductor quantum structures.Read moreRead less
Precision Measurement of Highly Excited Atoms and Molecules: From the Infrared to the Vacuum Ultraviolet. Precise measurements of the structure and dynamics of atomic and molecular systems provide important benchmarks against which our fundamental understanding of matter can be tested. Such measurements also provide reference standards, with applications in many subfields (e.g. testing theories that indicate time dependence of the fundamental constants). Determination of the behaviour of simple ....Precision Measurement of Highly Excited Atoms and Molecules: From the Infrared to the Vacuum Ultraviolet. Precise measurements of the structure and dynamics of atomic and molecular systems provide important benchmarks against which our fundamental understanding of matter can be tested. Such measurements also provide reference standards, with applications in many subfields (e.g. testing theories that indicate time dependence of the fundamental constants). Determination of the behaviour of simple molecules such as oxygen and nitrogen is important for understanding the complex processes that shape the atmosphere of the earth and other planets. These experiments will also enable the understanding of other chemical processes, and will build on our strengths in developing precision laser technologies.Read moreRead less