Add to ORKGA 250-TW laser system (FLAME - Frascati laser for acceleration and multidisciplinary experiments) is now in its commissioning phase in a new laboratory at LNF-INFN in the framework of the PLASMONX (Plasma acceleration and monochromatic X-ray generation) project. The laser will deliver < 25 fs duration pulses with an energy up to 6J, at a 10Hz repetition rate. An ad hoc target area has also been designed and is currently being set up, allowing the first test experiments of electron laser wakefield acceleration to be carried out over the next few months in a safe, radiation-protected environment. An overview of the main features of the laser system and target area is given, along with a survey of the design and set-up of the self-injection...
This thesis describes experiments involving laser-plasma-based acceleration of electrons and protons...
We present the status of the project PLASMONX, recently approved by INFN. This project, based on a c...
In this paper we will briefly introduce laser–plasma acceleration for electrons and present some num...
A 250-TW laser system (FLAME - Frascati laser for acceleration and multidisciplinary experiments) is...
Laser-driven plasma acceleration is now being considered world-wide as a promising technique for th...
An increasing number of high-power laser laboratories are being established with the aim of developi...
A new era of laser based plasma accelerators is emerging following the commissioning of many high po...
Viene descritto l'esperimento PLASMONX per l'accelerazione di elettroni al GeV con il laser di pote...
The plasma-based acceleration is an encouraging technique to overcome the limits of the accelerating...
A new era of laser based plasma accelerators is emerging following the commissioning of many high p...
This thesis describes experimental studies that aim to stabilise and optimise laser-based particle a...
FLAME is the 200TW, 30fs, 10Hz Ti:Sapphire Laser that will be set up at Laboratori Nazionali di Fra...
This thesis describes experiments involving laser-plasma-based acceleration of electrons and protons...
We present the status of the project PLASMONX, recently approved by INFN. This project, based on a c...
In this paper we will briefly introduce laser–plasma acceleration for electrons and present some num...
A 250-TW laser system (FLAME - Frascati laser for acceleration and multidisciplinary experiments) is...
Laser-driven plasma acceleration is now being considered world-wide as a promising technique for th...
An increasing number of high-power laser laboratories are being established with the aim of developi...
A new era of laser based plasma accelerators is emerging following the commissioning of many high po...
Viene descritto l'esperimento PLASMONX per l'accelerazione di elettroni al GeV con il laser di pote...
The plasma-based acceleration is an encouraging technique to overcome the limits of the accelerating...
A new era of laser based plasma accelerators is emerging following the commissioning of many high p...
This thesis describes experimental studies that aim to stabilise and optimise laser-based particle a...
FLAME is the 200TW, 30fs, 10Hz Ti:Sapphire Laser that will be set up at Laboratori Nazionali di Fra...
This thesis describes experiments involving laser-plasma-based acceleration of electrons and protons...
We present the status of the project PLASMONX, recently approved by INFN. This project, based on a c...
In this paper we will briefly introduce laser–plasma acceleration for electrons and present some num...