Laser-driven electron beamlines are receiving increasing interest from the particle accelerator community. In particular, the high initial energy, low emittance, and high beam current of the plasma based electron source potentially allow generating much more compact and bright particle accelerators than what conventional accelerator technology can achieve. Using laser-generated particles as injectors for generating beamlines could significantly reduce the size and cost of accelerator facilities. Unfortunately, several features of laser-based particle beams need still to be improved before considering them for particle beamlines and thus enable the use of plasma-driven accelerators for the multiple applications of traditional accelerators. Besides working on the plasma source itself, a promising approach to shape the laser-generated beams is coupling them with conventional accelerator elements in order to benefit from both a versatile electron source and a controllable beam. In this paper, we perform start-to-end simulations to generate laser-driven beamlines using conventional accelerator codes and methodologies. Starting with laser-generated electrons that can be obtained with established multi-hundred TW laser systems, we compare different options to capture and transport the beams. This is performed with the aim of providing beamlines suitable for potential applications, such as free electron lasers. In our approach, we have analyzed which parameters are critical at the source and from there evaluated different ways to overcome these issues using conventional accelerator elements and methods. We show that electron driven beamlines are potentially feasible, but exploiting their full potential requires extensive improvement of the source parameters or innovative technological devices for their transport and capture. (C) 2012 American Institute of Physics. [http://dx.doi.org/10.1063/1.4740456]

Laser-driven electron beamlines generated by coupling laser-plasma sources with conventional transport systems / Antici, Patrizio; A., Bacci; E., Chiadroni; M., Ferrario; A. R., Rossi; Lancia, Livia; Migliorati, Mauro; Mostacci, Andrea; Palumbo, Luigi; L., Serafini; C., Benedetti. - In: JOURNAL OF APPLIED PHYSICS. - ISSN 0021-8979. - 112:4(2012), pp. 044902-044902-9. [10.1063/1.4740456]

Laser-driven electron beamlines generated by coupling laser-plasma sources with conventional transport systems

ANTICI, PATRIZIO;E. Chiadroni;LANCIA, LIVIA;MIGLIORATI, Mauro;MOSTACCI, Andrea;PALUMBO, Luigi;
2012

Abstract

Laser-driven electron beamlines are receiving increasing interest from the particle accelerator community. In particular, the high initial energy, low emittance, and high beam current of the plasma based electron source potentially allow generating much more compact and bright particle accelerators than what conventional accelerator technology can achieve. Using laser-generated particles as injectors for generating beamlines could significantly reduce the size and cost of accelerator facilities. Unfortunately, several features of laser-based particle beams need still to be improved before considering them for particle beamlines and thus enable the use of plasma-driven accelerators for the multiple applications of traditional accelerators. Besides working on the plasma source itself, a promising approach to shape the laser-generated beams is coupling them with conventional accelerator elements in order to benefit from both a versatile electron source and a controllable beam. In this paper, we perform start-to-end simulations to generate laser-driven beamlines using conventional accelerator codes and methodologies. Starting with laser-generated electrons that can be obtained with established multi-hundred TW laser systems, we compare different options to capture and transport the beams. This is performed with the aim of providing beamlines suitable for potential applications, such as free electron lasers. In our approach, we have analyzed which parameters are critical at the source and from there evaluated different ways to overcome these issues using conventional accelerator elements and methods. We show that electron driven beamlines are potentially feasible, but exploiting their full potential requires extensive improvement of the source parameters or innovative technological devices for their transport and capture. (C) 2012 American Institute of Physics. [http://dx.doi.org/10.1063/1.4740456]
2012
beam transport; laser plasma; electron sources
01 Pubblicazione su rivista::01a Articolo in rivista
Laser-driven electron beamlines generated by coupling laser-plasma sources with conventional transport systems / Antici, Patrizio; A., Bacci; E., Chiadroni; M., Ferrario; A. R., Rossi; Lancia, Livia; Migliorati, Mauro; Mostacci, Andrea; Palumbo, Luigi; L., Serafini; C., Benedetti. - In: JOURNAL OF APPLIED PHYSICS. - ISSN 0021-8979. - 112:4(2012), pp. 044902-044902-9. [10.1063/1.4740456]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/454378
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