Přehled o publikaci
2021
Electron concentration in the non-luminous part of the atmospheric pressure filamentary discharge
FALTÝNEK, Jan; Vít KUDRLE; Miroslav ŠNÍRER; Jozef TOMAN; Ondřej JAŠEK et al.Basic information
Original name
Electron concentration in the non-luminous part of the atmospheric pressure filamentary discharge
Authors
FALTÝNEK, Jan; Vít KUDRLE; Miroslav ŠNÍRER; Jozef TOMAN and Ondřej JAŠEK
Edition
Plasma Sources Science and Technology, Bristol, IOP Pub. 2021, 0963-0252
Other information
Language
English
Type of outcome
Article in a journal
Country of publisher
United Kingdom of Great Britain and Northern Ireland
Confidentiality degree
is not subject to a state or trade secret
References:
Marked to be transferred to RIV
Yes
RIV identification code
RIV/00216224:14310/21:00118832
Organization
Přírodovědecká fakulta – Repository – Repository
UT WoS
EID Scopus
Keywords in English
numerical model; atmospheric pressure; filamentary plasma; plasma density; Stark broadening; microwave interferometry; graphene synthesis
Links
GA18-08520S, research and development project. CEPLANT, large research infrastructures.
Changed: 28/2/2024 04:01, RNDr. Daniel Jakubík
Abstract
In the original language
The non-luminous surroundings of atmospheric pressure plasma jets contain still substantial electron density which can be of practical importance, when e.g. reactant or precursor is introduced into this zone. Low signal-to-noise ratio makes the Stark broadening technique unsuitable there, and so we employed the microwave interferometry to determine the electron density during the plasma synthesis of graphene. The relatively long wavelength, tight geometry and the presence of overcritical plasma filament necessitated the use of a numerical solution of the Maxwell equations. Besides laying the groundwork of the method, the paper also discusses the importance of plasma density profile in the active filament and its surroundings. The results show that in radial distance ten times higher than a visually apparent plasma diameter, the plasma density was still around 1016-1017 m-3.
