Sub-picosecond studies of matter using intense light from a Free Electron Laser. An Australian research group will use their new ultra-fast timing technology in combination with a new, extremely bright light source, the FERMI Free Electron Laser, Italy. FERMI makes picosecond wide light pulses - the timing technology measures times significantly shorter than a nanosecond. In combination, the way intense light effects the structure of atoms & molecules is studied, leading to an in-depth understa ....Sub-picosecond studies of matter using intense light from a Free Electron Laser. An Australian research group will use their new ultra-fast timing technology in combination with a new, extremely bright light source, the FERMI Free Electron Laser, Italy. FERMI makes picosecond wide light pulses - the timing technology measures times significantly shorter than a nanosecond. In combination, the way intense light effects the structure of atoms & molecules is studied, leading to an in-depth understanding of the processes involved. The new detector technology will be characterised using an electron recycling spectrometer, a new method for making electron beams of a particular energy by storing electrons in a racetrack orbit.Read moreRead less
Spin dynamics in magnetic nanostructures by spin-polarized single- and two-electron spectroscopy. The technological and fundamental outcomes will underpin development of spin-polarized electron dynamics in magnetic nanostructures. Electron spin dynamics offers active control and manipulation of electron spin in ultrathin films as the basis of novel technology. Potential applications are high-speed filters, sensors, quantum transistors. The surface science-based industry will find applications f ....Spin dynamics in magnetic nanostructures by spin-polarized single- and two-electron spectroscopy. The technological and fundamental outcomes will underpin development of spin-polarized electron dynamics in magnetic nanostructures. Electron spin dynamics offers active control and manipulation of electron spin in ultrathin films as the basis of novel technology. Potential applications are high-speed filters, sensors, quantum transistors. The surface science-based industry will find applications for manufacturing and control in nanotechnology. This project contributes to postgraduate and postdoctoral research and training to encourage excellence, with depth of knowledge in interdisciplinary research, a scientific environment providing access to research not otherwise in Australia, and experience in construction of scientific instruments.Read moreRead less