Surface properties of graphite and LaB sub(6) materials used for laser heated emissive probe diagnostic

Laser heated emissive probe (LHEP) has been used as an alternative diagnostics to measure direct plasma potential. In this case, surface properties of LHEP materials have been studied before and after exposing it to high power laser. A high density small diameter (0.5 mm) laser light of variable pow...

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Veröffentlicht in:	Indian journal of physics 2017-02, Vol.91 (2), p.225-234
Hauptverfasser:	Mehta, P, Sarma, A, Sivagami, AD, HariPrakash, N, Gopi, S, Sarma, B, Ghosh, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Diagnostic systems Emissivity Energy dispersive Exposure Lasers Scanning electron microscopy Surface properties X ray spectroscopy
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container_title	Indian journal of physics
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creator	Mehta, P Sarma, A Sivagami, AD HariPrakash, N Gopi, S Sarma, B Ghosh, J
description	Laser heated emissive probe (LHEP) has been used as an alternative diagnostics to measure direct plasma potential. In this case, surface properties of LHEP materials have been studied before and after exposing it to high power laser. A high density small diameter (0.5 mm) laser light of variable power density is used to heat the probe tip. Two types of probe tip material are used in this experiment, viz, Graphite (Coarse grain and HOPG) and LaB sub(6). Purity of material is dependent on the constituents of the same. Surface properties of these materials before and after laser exposure and plasma conditions have been characterized by scanning electron microscopy (SEM) and the energy dispersive X-ray spectroscopy. In order to achieve higher sensitivity on carbon surface and other layers the low-energy probing (~1.0 keV), the energy dispersive spectroscopy is used. Data of the energy dispersive X-ray spectroscopy allows us to obtain the structure of the materials as well as different elements present in these materials. To understand the surface morphology more critically, open source software named Gwyddion (version 2.35) has been used for processing of the SEM images. The 3-D visualization of the probe tip at different experimental conditions has been made using the Interactive 3-D surface plot plug-in of Gwyddion. Optical properties are also analyzed using diffusion reflectance spectroscopy and from which band gap energy of the same has been estimated.
doi_str_mv	10.1007/s12648-016-0907-9
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In this case, surface properties of LHEP materials have been studied before and after exposing it to high power laser. A high density small diameter (0.5 mm) laser light of variable power density is used to heat the probe tip. Two types of probe tip material are used in this experiment, viz, Graphite (Coarse grain and HOPG) and LaB sub(6). Purity of material is dependent on the constituents of the same. Surface properties of these materials before and after laser exposure and plasma conditions have been characterized by scanning electron microscopy (SEM) and the energy dispersive X-ray spectroscopy. In order to achieve higher sensitivity on carbon surface and other layers the low-energy probing (~1.0 keV), the energy dispersive spectroscopy is used. Data of the energy dispersive X-ray spectroscopy allows us to obtain the structure of the materials as well as different elements present in these materials. 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subjects	Diagnostic systems Emissivity Energy dispersive Exposure Lasers Scanning electron microscopy Surface properties X ray spectroscopy
title	Surface properties of graphite and LaB sub(6) materials used for laser heated emissive probe diagnostic
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