Jean Eric Ducret scite author profile

Jean Eric Ducret

3Publications

33Citation Statements Received

39Citation Statements Given

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Affiliations

Centre Lasers Intenses et Applications, University of Bordeaux

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Directional Track Selection Technique in CR39 SSNTD for lowyield reaction experiments

Ingenito

Andreoli

Batani

et al. 2018

EPJ Web of Conferences

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Abstract. There is a great interest in the study of p-11 B aneutronic nuclear fusion reactions, both for energy production and for determination of fusion cross-sections at low energies. In this context we performed experiments at CELIA in which energetic protons, accelerated by the laser ECLIPSE, were directed toward a solid Boron target. Because of the small cross-sections at these energies the number of expected reactions is low. CR39 Solid-State Nuclear Track Detectors (SSNTD) were used to detect the alpha particles produced. Because of the low expected yield, it is difficult to discriminate the tracks due to true fusion products from those due to natural background in the CR39.To this purpose we developed a methodology of particle recognition according to their direction with respect to the detector normal, able to determine the position of their source. We applied this to the specific experiment geometry, so to select from all the tracks those due to particles coming from the region of interaction between accelerated protons and solid boron target. This technique can be of great help on the analysis of SSNTD in experiments with low yield reactions, but can be also generally applied to any experiment where particles reach the track detector with known directions, and for example to improve the detection limit of particle spectrometers using CR39.

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Laser-plasma energetic particle production for aneutronic nuclear fusion experiments

Giulietti

Andreoli

Batani

et al. 2017

Nuclear Instruments and Methods in Physics Research Section B:

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Development of the PETAL Laser Facility and its Diagnostic Tools

Batani¹,

Hulin²,

Ducret³

et al. 2013

Acta Polytech

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The PETAL system (PETawatt Aquitaine Laser) is a high-energy short-pulse laser, currently in an advanced construction phase, to be combined with the French Mega-Joule Laser (LMJ). In a first operational phase (beginning in 2015 and 2016) PETAL will provide 1 kJ in 1 ps and will be coupled to the first four LMJ quads. The ultimate performance goal to reach 7PW (3.5 kJ with 0.5 ps pulses). Once in operation, LMJ and PETAL will form a unique facility in Europe for High Energy Density Physics (HEDP). PETAL is aiming at providing secondary sources of particles and radiation to diagnose the HED plasmas generated by the LMJ beams. It also will be used to create HED states by short-pulse heating of matter. Petal+ is an auxiliary project addressed to design and build diagnostics for experiments with PETAL. Within this project, three types of diagnostics are planned: a proton spectrometer, an electronspectrometer and a large-range X-ray spectrometer.

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Jean Eric Ducret

Directional Track Selection Technique in CR39 SSNTD for lowyield reaction experiments

Laser-plasma energetic particle production for aneutronic nuclear fusion experiments

Development of the PETAL Laser Facility and its Diagnostic Tools

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