A Versatile Laminar Flow Atmospheric Pressure Plasma Jet Using a Double Coaxial Glass Tube

Hayato Ohashi; Kohei Oyama; Tetta Mitani; Kenta Naiki; Tomohiro Nakayama; Hiroaki Ito

doi:10.1109/TPS.2017.2731898

A Versatile Laminar Flow Atmospheric Pressure Plasma Jet Using a Double Coaxial Glass Tube

Hayato Ohashi^*, Kohei Oyama, Tetta Mitani, Kenta Naiki, Tomohiro Nakayama, Hiroaki Ito^*

^*Corresponding author for this work

Electric and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We report the characteristics of laminar flow atmospheric pressure plasma jets (APPJs) using a double coaxial glass tube. Two gases can be introduced independently into the tube, and the gas and plasma flows form a laminar flow and then interact outside of the glass tube. In the case of helium (He) as an inner gas flow with an outer nitrogen (N₂) gas flow, emission lines of nitric oxide, the first negative and second positive system bands of N₂ were observed, while only the second positive system band was observed in the case of argon (Ar) as the inner one. Considering the Penning effects of each excited state, the metastable state of He has a higher energy than that of Ar, resulting in energetic nitrogenous productions in the former case. The excited state in the core plasma is one of the important conditions to determine the characteristics of the APPJ produced with a double coaxial glass tube.

Original language	English
Article number	8010864
Pages (from-to)	2481-2485
Number of pages	5
Journal	IEEE Transactions on Plasma Science
Volume	45
Issue number	9
DOIs	https://doi.org/10.1109/TPS.2017.2731898
State	Published - 2017/09

Keywords

Atmospheric pressure plasma jet (APPJ)
dielectric barrier discharge
hydroxide
nitric oxide
nitrogen
optical emission spectroscopy

ASJC Scopus subject areas

Nuclear and High Energy Physics
Condensed Matter Physics

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10.1109/TPS.2017.2731898

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@article{95c63ce931d44597b92054c559f469cf,

title = "A Versatile Laminar Flow Atmospheric Pressure Plasma Jet Using a Double Coaxial Glass Tube",

abstract = "We report the characteristics of laminar flow atmospheric pressure plasma jets (APPJs) using a double coaxial glass tube. Two gases can be introduced independently into the tube, and the gas and plasma flows form a laminar flow and then interact outside of the glass tube. In the case of helium (He) as an inner gas flow with an outer nitrogen (N2) gas flow, emission lines of nitric oxide, the first negative and second positive system bands of N2 were observed, while only the second positive system band was observed in the case of argon (Ar) as the inner one. Considering the Penning effects of each excited state, the metastable state of He has a higher energy than that of Ar, resulting in energetic nitrogenous productions in the former case. The excited state in the core plasma is one of the important conditions to determine the characteristics of the APPJ produced with a double coaxial glass tube.",

keywords = "Atmospheric pressure plasma jet (APPJ), dielectric barrier discharge, hydroxide, nitric oxide, nitrogen, optical emission spectroscopy",

author = "Hayato Ohashi and Kohei Oyama and Tetta Mitani and Kenta Naiki and Tomohiro Nakayama and Hiroaki Ito",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.",

year = "2017",

month = sep,

doi = "10.1109/TPS.2017.2731898",

language = "英語",

volume = "45",

pages = "2481--2485",

journal = "IEEE Transactions on Plasma Science",

issn = "0093-3813",

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T1 - A Versatile Laminar Flow Atmospheric Pressure Plasma Jet Using a Double Coaxial Glass Tube

AU - Ohashi, Hayato

AU - Oyama, Kohei

AU - Mitani, Tetta

AU - Naiki, Kenta

AU - Nakayama, Tomohiro

AU - Ito, Hiroaki

PY - 2017/9

Y1 - 2017/9

N2 - We report the characteristics of laminar flow atmospheric pressure plasma jets (APPJs) using a double coaxial glass tube. Two gases can be introduced independently into the tube, and the gas and plasma flows form a laminar flow and then interact outside of the glass tube. In the case of helium (He) as an inner gas flow with an outer nitrogen (N2) gas flow, emission lines of nitric oxide, the first negative and second positive system bands of N2 were observed, while only the second positive system band was observed in the case of argon (Ar) as the inner one. Considering the Penning effects of each excited state, the metastable state of He has a higher energy than that of Ar, resulting in energetic nitrogenous productions in the former case. The excited state in the core plasma is one of the important conditions to determine the characteristics of the APPJ produced with a double coaxial glass tube.

AB - We report the characteristics of laminar flow atmospheric pressure plasma jets (APPJs) using a double coaxial glass tube. Two gases can be introduced independently into the tube, and the gas and plasma flows form a laminar flow and then interact outside of the glass tube. In the case of helium (He) as an inner gas flow with an outer nitrogen (N2) gas flow, emission lines of nitric oxide, the first negative and second positive system bands of N2 were observed, while only the second positive system band was observed in the case of argon (Ar) as the inner one. Considering the Penning effects of each excited state, the metastable state of He has a higher energy than that of Ar, resulting in energetic nitrogenous productions in the former case. The excited state in the core plasma is one of the important conditions to determine the characteristics of the APPJ produced with a double coaxial glass tube.

KW - Atmospheric pressure plasma jet (APPJ)

KW - dielectric barrier discharge

KW - hydroxide

KW - nitric oxide

KW - nitrogen

KW - optical emission spectroscopy

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U2 - 10.1109/TPS.2017.2731898

DO - 10.1109/TPS.2017.2731898

M3 - 学術論文

AN - SCOPUS:85028467035

SN - 0093-3813

VL - 45

SP - 2481

EP - 2485

JO - IEEE Transactions on Plasma Science

JF - IEEE Transactions on Plasma Science

IS - 9

M1 - 8010864

ER -

A Versatile Laminar Flow Atmospheric Pressure Plasma Jet Using a Double Coaxial Glass Tube

Abstract

Keywords

ASJC Scopus subject areas

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