Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams

We measured the response of BAS-TR imaging plate (IP) to energetic aluminum ions up to 222 MeV, and compared it with predictions from a Monte Carlo simulation code using two different IP response models. Energetic aluminum ions were produced with an intense laser pulse, and the response was evaluate...
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Autor*in:	Junho Won [verfasserIn] Jaehyeon Song [verfasserIn] Sasi Palaniyappan [verfasserIn] Donald Cort Gautier [verfasserIn] Wonhee Jeong [verfasserIn] Juan Carlos Fernández [verfasserIn] Woosuk Bang [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2021

Schlagwörter:	Monte Carlo simulation laser-driven ion acceleration imaging plate

Übergeordnetes Werk:	In: Applied Sciences - MDPI AG, 2012, 11(2021), 2, p 820
Übergeordnetes Werk:	volume:11 ; year:2021 ; number:2, p 820

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/app11020820

Katalog-ID:	DOAJ055979858

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520			\|a We measured the response of BAS-TR imaging plate (IP) to energetic aluminum ions up to 222 MeV, and compared it with predictions from a Monte Carlo simulation code using two different IP response models. Energetic aluminum ions were produced with an intense laser pulse, and the response was evaluated from cross-calibration between CR-39 track detector and IP energy spectrometer. For the first time, we obtained the response function of the BAS-TR IP for aluminum ions with a kinetic energy as high as 222 MeV. On close examination of the two IP response models, we confirm that the exponential model fits our experimental data better. Moreover, we find that the IP sensitivity in the exponential model is nearly constant in this energy range, suggesting that the response function can be determined even with little experimental data.
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source	In Applied Sciences 11(2021), 2, p 820 volume:11 year:2021 number:2, p 820
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authorswithroles_txt_mv	Junho Won @@aut@@ Jaehyeon Song @@aut@@ Sasi Palaniyappan @@aut@@ Donald Cort Gautier @@aut@@ Wonhee Jeong @@aut@@ Juan Carlos Fernández @@aut@@ Woosuk Bang @@aut@@
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callnumber-first	T - Technology
author	Junho Won
spellingShingle	Junho Won misc TA1-2040 misc QH301-705.5 misc QC1-999 misc QD1-999 misc Monte Carlo simulation misc laser-driven ion acceleration misc imaging plate misc Technology misc T misc Engineering (General). Civil engineering (General) misc Biology (General) misc Physics misc Chemistry Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams
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topic_title	TA1-2040 QH301-705.5 QC1-999 QD1-999 Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams Monte Carlo simulation laser-driven ion acceleration imaging plate
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title	Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams
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title_sort	monte carlo study of imaging plate response to laser-driven aluminum ion beams
callnumber	TA1-2040
title_auth	Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams
abstract	We measured the response of BAS-TR imaging plate (IP) to energetic aluminum ions up to 222 MeV, and compared it with predictions from a Monte Carlo simulation code using two different IP response models. Energetic aluminum ions were produced with an intense laser pulse, and the response was evaluated from cross-calibration between CR-39 track detector and IP energy spectrometer. For the first time, we obtained the response function of the BAS-TR IP for aluminum ions with a kinetic energy as high as 222 MeV. On close examination of the two IP response models, we confirm that the exponential model fits our experimental data better. Moreover, we find that the IP sensitivity in the exponential model is nearly constant in this energy range, suggesting that the response function can be determined even with little experimental data.
abstractGer	We measured the response of BAS-TR imaging plate (IP) to energetic aluminum ions up to 222 MeV, and compared it with predictions from a Monte Carlo simulation code using two different IP response models. Energetic aluminum ions were produced with an intense laser pulse, and the response was evaluated from cross-calibration between CR-39 track detector and IP energy spectrometer. For the first time, we obtained the response function of the BAS-TR IP for aluminum ions with a kinetic energy as high as 222 MeV. On close examination of the two IP response models, we confirm that the exponential model fits our experimental data better. Moreover, we find that the IP sensitivity in the exponential model is nearly constant in this energy range, suggesting that the response function can be determined even with little experimental data.
abstract_unstemmed	We measured the response of BAS-TR imaging plate (IP) to energetic aluminum ions up to 222 MeV, and compared it with predictions from a Monte Carlo simulation code using two different IP response models. Energetic aluminum ions were produced with an intense laser pulse, and the response was evaluated from cross-calibration between CR-39 track detector and IP energy spectrometer. For the first time, we obtained the response function of the BAS-TR IP for aluminum ions with a kinetic energy as high as 222 MeV. On close examination of the two IP response models, we confirm that the exponential model fits our experimental data better. Moreover, we find that the IP sensitivity in the exponential model is nearly constant in this energy range, suggesting that the response function can be determined even with little experimental data.
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title_short	Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams
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Monte Carlo Study of Imaging Plate Response to Laser-Driven Aluminum Ion Beams

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