RESEARCH
THE NETWORK'S MAIN SCIENTIFIC AND TECHNOLOGICAL OBJECTIVES ARE SPLIT INTO THREE CLOSELY INTERLINKED WORK PACKAGES
Laser & Plasma
Manipulation and Characterization of Ultrashort Laser Pulses for High-quality Electron Bunch Acceleration - position filled
(Consiglio Nazionale delle Ricerche - Istituto Nazionale di Ottica)
This WP will tackle an overall optimization of the accelerated electron beam by carrying out comprehensive studies into the optimization of the laser and plasma parameters.
Theoretical and Experimental Studies of Plasma Formation in Capillary Discharge Waveguides for Plasma-based Accelerators - position filled
(Istituto Nazionale di Fisica Nucleare)
Short-pulse Laser-driven Injector - position filled
(Lunds Universitet)
Facility Design & Optimization
Ultra-short Bunch Length Measurements with Femtosecond Resolution - position filled
(University of Liverpool)
This WP targets an optimization of the design of laser- and beam-driven plasma accelerator facilities, specifically through the development of superior beam diagnostics and synchronization technologies as required for optimum beam quality.
Theoretical and Technological Studies into Femtosecond Synchronization - position filled
(Istituto Nazionale di Fisica Nucleare)
Development and Validation of an X-band Low Level Radio Frequency prototype for EuPRAXIA - position filled
(Instrumentation Technologies)
Development of Integrated Diagnostics for Plasma Accelerators - position filled
(CIVIDEC)
Applications
Laser-driven Proton Beam Therapy - position filled
(University of Liverpool)
In this WP, network partners join forces to enable breakthrough science measurements and innovative applications.
Laser-driven Undulator Coherent Radiation Source - position filled
(ELI ERIC)
Superradiance from non-linear Thomson Scattering - position filled
(Instituto Superior Técnico)
THz-driven Dielectric Accelerators - position filled
(University of Pécs)