Real-time monitoring via second-harmonic interferometry of a flow gas cell for laser wakefield acceleration

Year: 2016

Authors: Brandi F.; Giammanco F.; Conti F.; Sylla F.; Lambert G.; Gizzi L. A.

Autors Affiliation: Intense Laser Irradiation Laboratory (ILIL), Istituto Nazionale di Ottica (INO-CNR), Via Moruzzi 1, Pisa, 56124, Italy; Istituto Italiano di Tecnologia (IIT), Via Morego 30, Genova, 16163, Italy; Dipartimento di Fisica, Università degli Studi di Pisa, Largo B. Pontecorvo 3, Pisa, 56127, Italy; Plasma Diagnostics and Technologies Ltd., via Matteucci n.38/D, Pisa, 56124, Italy; SourceLAB SAS, 86 Rue de Paris, Orsay, 91400, France; LOA, ENSTA ParisTech, CNRS, Ecole Polytechnique, Université Paris-Saclay, 828 bd des Maréchaux, Palaiseau Cedex, 91762, France

Abstract: The use of a gas cell as a target for laser wakefield acceleration (LWFA) offers the possibility to obtain stable and manageable laser-plasma interaction process, a mandatory condition for practical applications of this emerging technique, especially in multi-stage accelerators. In order to obtain full control of the gas particle number density in the interaction region, thus allowing for a long term stable and manageable LWFA, real-time monitoring is necessary. In fact, the ideal gas law cannot be used to estimate the particle density inside the flow cell based on the preset backing pressure and the room temperature because the gas flow depends on several factors like tubing, regulators, and valves in the gas supply system, as well as vacuum chamber volume and vacuum pump speed/throughput. Here, second-harmonic interferometry is applied to measure the particle number density inside a flow gas cell designed for LWFA. The results demonstrate that real-time monitoring is achieved and that using low backing pressure gas (<1 bar) and different cell orifice diameters (<2 mm) it is possible to finely tune the number density up to the 1019 cm−3 range well suited for LWFA. Journal/Review: REVIEW OF SCIENTIFIC INSTRUMENTS

Volume: 87      Pages from: 086103-1  to: 086103-3

More Information: F.B. and L.G. received funding from the European Union´s Horizon 2020 research and innovation programme under Grant Agreement No. 653782-EuPRAXIA, and from the Istituto Italiano di Tecnologia (convenzione operativa IIT INO-CNR prot. n. 0010983, 26/11/2013). The Authors acknowledge Emilien Guillaume, Cedric Thaury for useful discussions.
KeyWords: number density; second-harmonic interferometry; dispersion interferometer; laser-plasma;
DOI: 10.1063/1.4960399

Citations: 12
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