SEPAGE: a proton-ion-electron spectrometer for LMJ-PETAL

Autor: Ange Lotode, Katarzyna Jakubowska, Xavier Leboeuf, N. Rabhi, Julien Fuchs, François Granet, Laurent Serani, Didier Raffestin, Didier Dubreuil, Isabelle Lantuejoul, Antoine Chancé, G. Boutoux, Bruno Marchet, A. Duval, B. Rosse, B. Vauzour, Jean-Christian Toussaint, Francis Harrault, Chon Pès, L. Lecherbourg, Christophe Rousseaux, Didier Leboeuf, Jean-Eric Ducret, Pierre Prunet, T. Caillaud, Jean-Christophe Guillard, Denis Loiseau, Bernard Gastineau, S. Hulin, T. Ceccotti, Dimitri Batani, Charles Reverdin
Rok vydání: 2018
Předmět:
Zdroj: Radiation Detectors in Medicine, Industry, and National Security XIX.
Popis: The SEPAGE spectrometer (Spectrometre Electrons Protons A Grandes Energies) was realized within the PETAL+ project funded by the French ANR (French National Agency for Research). This plasma diagnostic, installed on the LMJ-PETAL laser facility, is dedicated to the measurement of charged particle energy spectra generated by experiments using PETAL (PETawatt Aquitaine Laser). SEPAGE is inserted inside the 10-meter diameter LMJ experimental chamber with a SID (Diagnostic Insertion System) in order to be close enough to the target. It is composed of two Thomson Parabola measuring ion spectra and more particularly proton spectra ranging from 0.1 to 20 MeV and from 8 to 200 MeV for the low and high energy channels respectively. The electron spectrum is also measured with an energy range between 0.1 and 150 MeV. The front part of the diagnostic carries a film stack that can be placed as close as 100 mm from the target center chamber. This stack allows a spatial and spectral characterization of the entire proton beam. It can also be used to realize proton radiographies.
Databáze: OpenAIRE
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