6533b7d9fe1ef96bd126ca3a
RESEARCH PRODUCT
Study of a new direct current atmospheric pressure glow discharge in helium
T. FiedlerJosé A. C. BroekaertB. Gielniaksubject
Glow dischargeAtmospheric pressureDirect currentAnalytical chemistrychemistry.chemical_elementRotational temperatureExcitation temperatureAtomic and Molecular Physics and OpticsAnalytical ChemistrychemistryIonizationElectron temperatureAtomic physicsInstrumentationSpectroscopyHeliumdescription
Abstract In this study a new DC-APGD operated in He was developed and characterized. The discharge is operated at 0.9 kV and about 25–35 mA and at a gas flow of 100 ml/min. The source was spectroscopically studied and parameters such as the rotational temperature (Trot), the excitation temperature (Texc), the ionization temperature (Tion) and the electron number density (ne) were determined. The current–voltage characteristic of the source was studied as well. At optimized conditions the discharge operates in the normal region of the current–voltage characteristic. Rotational and excitation temperatures determined with the use of OH band and Fe I lines as thermometric species were of the order of about 900–1200 and 4500–5500 K, respectively. This indicates that despite of the atmospheric pressure, the discharge is not in LTE. Spatially resolved temperature measurements were performed with axial as well as radial resolution and showed relatively flat profiles. Axially resolved emission intensity profiles for several species such as H, N2, N2+, OH, He and Hg were determined. It also was found that H2 introduced into the He by electrolysis of acid solutions such as in ECHG considerably increases the spectroscopically measured gas temperatures but decreases the analyte line intensities, as shown for Hg.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-01-01 | Spectrochimica Acta Part B: Atomic Spectroscopy |