by M. Huault, Michael Ehret, Diego de Luis, José Pérez-Hernández, Jon Apiñaniz, José Henares, Sophia Malko, Michaël Touati, Nuria Gordillo, Carolina Neira, Josefine Metzkes, Marvin Reimold, Ulrich Schramm, Karl Zeil, Luis Roso, Giancarlo Gatti and Luca Volpe
Abstract:
We present the experimental results of a 2D scintillator-based detector developed at the CLPU aiming at the spatio-spectral characterization of proton beams driven by ultra-relativistic laser pulses at high repetition rate. We report its implementation in laser-driven proton acceleration at the VEGA (CLPU) laser facility to demonstrate its operation. The analysis of the obtained results shows the relevance of the presented diagnostic for high repetition rate acquisition of laser-driven proton sources promoting it as an essential tool for large parametric studies in the emerging field of laser-driven accelerators. A validation of the spectral and divergence reconstruction method is also presented together with the scintillator calibration performed at the conventional accelerator CMAM in Madrid.
Reference:
M. Huault, Michael Ehret, Diego de Luis, José Pérez-Hernández, Jon Apiñaniz, José Henares, Sophia Malko, Michaël Touati, Nuria Gordillo, Carolina Neira, Josefine Metzkes, Marvin Reimold, Ulrich Schramm, Karl Zeil, Luis Roso, Giancarlo Gatti and Luca Volpe, “A Scintillator Detector for Spatiospectral Characterization of Proton Beams at High Repetition Rate”, IEEE Transactions on Instrumentation and Measurement, vol. PP, pp. 1–1.
Bibtex Entry:
@article{huault_scintillator_2024, title = {A {Scintillator} {Detector} for {Spatiospectral} {Characterization} of {Proton} {Beams} at {High} {Repetition} {Rate}}, volume = {PP}, doi = {10.1109/TIM.2024.3398120}, abstract = {We present the experimental results of a 2D scintillator-based detector developed at the CLPU aiming at the spatio-spectral characterization of proton beams driven by ultra-relativistic laser pulses at high repetition rate. We report its implementation in laser-driven proton acceleration at the VEGA (CLPU) laser facility to demonstrate its operation. The analysis of the obtained results shows the relevance of the presented diagnostic for high repetition rate acquisition of laser-driven proton sources promoting it as an essential tool for large parametric studies in the emerging field of laser-driven accelerators. A validation of the spectral and divergence reconstruction method is also presented together with the scintillator calibration performed at the conventional accelerator CMAM in Madrid.}, journal = {IEEE Transactions on Instrumentation and Measurement}, author = {Huault, M. and Ehret, Michael and de Luis, Diego and Pérez-Hernández, José and Apiñaniz, Jon and Henares, José and Malko, Sophia and Touati, Michaël and Gordillo, Nuria and Neira, Carolina and Metzkes, Josefine and Reimold, Marvin and Schramm, Ulrich and Zeil, Karl and Roso, Luis and Gatti, Giancarlo and Volpe, Luca}, month = jan, year = {2024}, pages = {1--1}, file = {Huault et al. - 2024 - A Scintillator Detector for Spatiospectral Charact.pdf:E:\Usuarios\Administrator\Zotero\storage\GB5W4YYL\Huault et al. - 2024 - A Scintillator Detector for Spatiospectral Charact.pdf:application/pdf}, }