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Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
PIP
Dielectric barrier discharges, particularly micro cavity plasma arrays, offer significant potential for plasma-catalytic research due to their ability to ignite plasma in direct contact with a catalytic surface, enabling the observation of plasma...
Figure5_15_model
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Figure5_15_exp
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Figure5_05_model
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Figure5_05_exp
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Figure5_01_model
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Figure5_01_exp
PIP
- Measurement of atomic oxygen densities using TALIF on a dielectric barrier discharge: Insights into the volume above a micro cavity plasma array
Electric field components within a micro-scaled DBD measured by Stark shifting and splitting of helium lines
PIP
Atmospheric pressure dielectric barrier discharges (DBDs), such as the micro cavity plasma array (MCPA), have emerged as promising technologies for the conversion of volatile gases. These conversion processes’ effectiveness can be enhanced by...