From Optical to THz Control of Materials: Faraday Discussion 237
English
Ultrafast science has long been limited to the investigation of molecular processes. Over the past 10 years investigation of ultrafast processes has expanded to material science, including aspects relevant to the solid-state such as excitation of electrons in band structures and collective phonon excitation. Specific probes for electronic and structural reorganization, such as X-ray diffraction and ARPES, have been advanced. Furthermore, experimental techniques including XFEL science, THz science and various pumpprobe methods, as well as the theoretical understanding of ultrafast, out-of-equilibrium and multiscale processes driven by light or THz excitation, have seen rapid development.
This volume brings together a complementarity of internationally-leading experimental material scientists and theoreticians in this field to explore and exchange their ideas about the key aspects of ultrafast science, designing new ways to control materials and understanding transformation processes.
The topics covered include:
- Material science: ultrafast transformation, electron-phonon coupling, multi-scale aspects
- Theory of out of equilibrium light-induced phenomena
- Optical excitation processes
- THz and laser field excitation processes