Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - datasetThe data set comprises the spatial distributions of H and O atoms in the cold atmospheric pressure plasma jet kINPen-sci. The data was obtained by means of picosecond two-photon absorption laser induced fluorescence spectroscopy (ps-TALIF) and numerical simulations.
]]>basic researchheat-sensitive surfacesPlasma Chemical Processes74dc9377-0e4b-4595-b59b-428e841971aa2020-10-23T12:04:43+02:002021-06-11T12:36:53+02:00enINP, York Plasma InstituteSpatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 3 (experimental data)Total TALIF signal of the O 2p^3_4 3P_J=2 -> 3p^3P_J=1,2,0 transition as a function of the excitation wavelength, determined at z = 0.25 mm. Each data point was obtained by accumulating the entirety of the fluorescence signals of 256 laser shots with a camera gate width of 120 ns - see Fig. 3 in the publication.
]]>2020-10-23T12:07:34+02:002020-12-01T15:00:20+01:00text/csvcsv186https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-0Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 3 (Gaussian fit)Gaussian fit of the total TALIF signal of the O 2p^3_4 3P_J=2 -> 3p^3P_J=1,2,0 transition as a function of the excitation wavelength, determined at z = 0.25 mm - see Fig. 3 in the publication.
]]>2020-12-01T14:23:53+01:002020-12-01T15:23:17+01:00text/csvcsv23186https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-1Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 4 (experimental data)Time resolved O(3p^3P_J) TALIF signal at z = 0.25 mm obtained with 0.5 ns time steps and 5 ns camera gate width - see Fig. 4 in the publication.
]]>2020-12-01T14:27:54+01:002020-12-01T15:23:29+01:00text/csvcsv508https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-2Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 4 (exponential fit)Exponential fit of the decay of the time resolved O(3p^3P_J) TALIF signal at z = 0.25 mm - see Fig. 4 in the publication.
]]>2020-12-01T14:32:21+01:002020-12-01T15:23:39+01:00text/csvcsv21721https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-3Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 5Density of O and H as a function of x at z = 0.25 mm, z = 2.30 mm, and z = 3.25 mm. A gas curtain of 100% oxygen was applied - see Fig. 5 in the publication.
]]>2020-12-01T14:43:11+01:002020-12-01T15:23:52+01:00text/csvcsv4915https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-4Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 6Measured O atom density at z = 1 mm with dry argon feed gas as a function of the oxygen content in the O2/N2 gas curtain - see Fig. 6 in the publication.
]]>2020-12-01T14:48:28+01:002020-12-01T15:24:01+01:00text/csvcsv240https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-5Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 7aSpatial density distributions of O atoms as a function of the radial distance from the centre of the nozzle x and the axial distance from the nozzle z, obtained from an interpolation between the experimental data points. Measured O atom density in m-3, x between -4 mm and 4 mm, Δx=0.24 mm, z between 0 and 10, Δz=0.001 mm - see Fig. 7a in the publication.
]]>2020-12-01T15:06:34+01:002021-06-11T12:36:53+02:00text/csvcsv115835https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-6Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 7bSpatial density distributions of O atoms as a function of the radial distance from the centre of the nozzle x and the axial distance from the nozzle z, obtained from a plasma chemical and reacting flow model. Simulated O atom density in 10^14 cm-3, x between -5 and 5, Δx=0.05 mm, z between 0 and 11, Δz=0.01 mm - see Fig. 7b in the publication.
]]>2020-12-01T15:13:35+01:002020-12-01T15:15:16+01:00text/csvcsv74600https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-7Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 7cSpatial density distributions of H atoms as a function of the radial distance from the centre of the nozzle x and the axial distance from the nozzle z, obtained from an interpolation between the experimental data points. Measured H atom density in m-3, x between -4 mm and 4 mm, Δx=0.24 mm, z between 0 and 10, Δz=0.001 mm - see Fig. 7c in the publication.
]]>2020-12-01T15:14:58+01:002020-12-01T15:14:58+01:00text/csvcsv118503https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-8Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 7dSpatial density distributions of H atoms as a function of the radial distance from the centre of the nozzle x and the axial distance from the nozzle z, obtained from a plasma chemical and reacting flow model. Simulated H atom density in 10^14 cm-3, x between -5 and 5, Δx=0.05 mm, z between 0 and 11, Δz=0.01 mm - see Fig. 7b in the publication.
]]>2020-12-01T15:16:37+01:002020-12-01T15:16:37+01:00text/csvcsv63222https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-9Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 8 (experiment)Measured axial density of O and H atoms as a function of the axial distance z to the nozzle - see Fig. 8 in the publication.
]]>2020-12-01T15:21:04+01:002020-12-01T15:21:04+01:00text/csvcsv443https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-10Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 8 (simulation)Simulated axial density of O and H atoms as a function of the axial distance z to the nozzle - see Fig. 8 in the publication.
]]>2020-12-01T15:22:50+01:002020-12-01T15:22:50+01:00text/csvcsv3666https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-11Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 9aProduction and consumption rates for O atoms as a function of the axial distance z from the nozzle - see Fig. 9b in the publication.
]]>2020-12-01T15:26:30+01:002020-12-01T15:27:43+01:00text/csvcsv36122https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-12Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet - Fig. 9bProduction and consumption rates for H atoms as a function of the axial distance z from the nozzle - see Fig. 9b in the publication.
]]>2020-12-01T15:27:49+01:002020-12-01T15:27:49+01:00text/csvcsv20582https://www.inptdat.de/dataset/spatial-distribution-hydrogen-and-oxygen-atoms-cold-atmospheric-pressure-plasma-jet-13DKANhttps://www.inptdat.de