Pathways to Energy from Inertial Fusion - An Integrated Approach

The CRP will cover research relevant to further development of IFE and enhance awareness in Member States for Beam-Plasma-Matter interaction, developing building blocks for IFE and on IFE Power plants and integration. The purpose of such research is essentially three-fold: firstly, to improve our understanding of the underlying physical processes; secondly, to demonstrate capability and progress; and finally, of key importance to the pursuit of an integrated IFE power plant design, is the need to translate the results of the research into specifications for the facility itself.

The scope of work envisaged is: Beam-plasma/beam-matter interactions related to target physics and fast ignition, research to address key unresolved issues and/or advance the feasibility and attractiveness of individual drivers, targets and chambers that are part of integrated pathways, and research on key interface issues faced when developing integrated power plant systems (e.g., beam propagation through the chamber environment, target survival during injection, beam/target coupling, chamber response to target emission, etc.)

The scope of the CRP will cover research relevant to further development of IFE. In particular this CRP will focus primarily on research that is aligned with the integrated pathways to IFE that are currently being pursued:
- laser drivers with direct-drive targets and dry-wall chambers,
- heavy-ion drivers with indirect-drive targets and thick-liquid-wall (TLW) chambers,
- Z-pinch driven indirect-drive targets with TLW chambers,
- fast ignition with lasers and wetted-wall chambers.

The CRP will also encourage and contribute to some innovative, high-risk, high-pay-off research.