First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm

First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm

Light penetration depth is a fundamental property that has been researched extensively with a large amount of materials. Among those studies, different planetary atmospheres and material phases, like plasmas, had been previously addressed, both theoretically and experimentally. However, no experimen...

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Bibliographic Details
Main Authors: Gonzalo Rodríguez Prieto, Luis Bilbao
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Metals
Subjects:
light attenuation
iron
platinum
gas
exploding wire
Online Access:https://www.mdpi.com/2075-4701/10/10/1382
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spelling doaj-a4f21ccff5674b37832bb3a07d51fa842020-11-25T03:37:35ZengMDPI AGMetals2075-47012020-10-01101382138210.3390/met10101382First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nmGonzalo Rodríguez Prieto0Luis Bilbao1INEI, University of Castilla-la Mancha, 37001 C. Real, SpainDepartamento de Física, Facultad de Ciencias Exactas, Universidad de Buenos Aires, Buenos Aires 1482, ArgentinaLight penetration depth is a fundamental property that has been researched extensively with a large amount of materials. Among those studies, different planetary atmospheres and material phases, like plasmas, had been previously addressed, both theoretically and experimentally. However, no experimental data are available for platinum and iron gases due to the difficulties for the creation of gas state from a solid metal material. This work present experimental penetration depths at 532 nm laser light for iron and platinum gases produced by a carefully tuned exploding wire system in atmospheric air. Iron presents a larger dispersion on the data than platinum, which is explained because of its large magnetic permeability value, that generates a less homogeneous gas than in the platinum case.https://www.mdpi.com/2075-4701/10/10/1382light attenuationironplatinumgasexploding wire
collection DOAJ
language English
format Article
sources DOAJ
author Gonzalo Rodríguez Prieto
Luis Bilbao
spellingShingle Gonzalo Rodríguez Prieto
Luis Bilbao
First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
Metals
light attenuation
iron
platinum
gas
exploding wire
author_facet Gonzalo Rodríguez Prieto
Luis Bilbao
author_sort Gonzalo Rodríguez Prieto
title First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
title_short First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
title_full First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
title_fullStr First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
title_full_unstemmed First Experimental Values for the Light Penetration Depth of Platinum and Iron Gases at 532 nm
title_sort first experimental values for the light penetration depth of platinum and iron gases at 532 nm
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2020-10-01
description Light penetration depth is a fundamental property that has been researched extensively with a large amount of materials. Among those studies, different planetary atmospheres and material phases, like plasmas, had been previously addressed, both theoretically and experimentally. However, no experimental data are available for platinum and iron gases due to the difficulties for the creation of gas state from a solid metal material. This work present experimental penetration depths at 532 nm laser light for iron and platinum gases produced by a carefully tuned exploding wire system in atmospheric air. Iron presents a larger dispersion on the data than platinum, which is explained because of its large magnetic permeability value, that generates a less homogeneous gas than in the platinum case.
topic light attenuation
iron
platinum
gas
exploding wire
url https://www.mdpi.com/2075-4701/10/10/1382
work_keys_str_mv AT gonzalorodriguezprieto firstexperimentalvaluesforthelightpenetrationdepthofplatinumandirongasesat532nm
AT luisbilbao firstexperimentalvaluesforthelightpenetrationdepthofplatinumandirongasesat532nm
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