Ar metastable densities (³P₂) in the effluent of a filamentary atmospheric pressure plasma jet with humidified feed gas - datasetThe Ar(³P₂) metastable density in the effluent of the cold atmospheric pressure plasma jet kINPen-sci was investigated as a function of the feed gas humidity, the gas curtain composition, and the distance from the nozzle by means of laser atomic absorption spectroscopy. The data set comprises the axial distributions of the Ar metastables as a function of these parameters.
]]>Plasma Chemical Processesa2cababb-9e9f-4767-9234-6de87886adc32021-01-27T09:07:04+01:002021-09-22T10:56:04+02:00enINPAr metastable densities in the effluent of a filamentary APPJ - Fig. 2aFourier transform of the unfiltered detector signal. The laser beam was focused 0.1 mm below the nozzle. A feed gas of 3 slm. Ar with 70 ppm humidity was used, while a gas curtain of 5 slm O₂ was applied. – see Fig 2 in the publication.
]]>2021-05-31T12:11:36+02:002021-09-22T10:56:04+02:00text/csvcsv13387961https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-1Ar metastable densities in the effluent of a filamentary APPJ - Fig. 2bFourier transform of the filtered detector signal. The laser beam was focused 0.1 mm below the nozzle. A feed gas of 3 slm. Ar with 70 ppm humidity was used, while a gas curtain of 5 slm O₂ was applied. – see Fig 2 in the publication.
]]>2021-06-01T08:56:04+02:002021-09-22T10:56:04+02:00text/csvcsv27571590https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-2Ar metastable densities in the effluent of a filamentary APPJ - Fig. 4Example of the time evolution of the Ar* density at z = 0.1 mm, 70 ppm water in 3 slm Ar feed gas, and a gas curtain of 5 slm O₂, together with a fit of the exponential decay. – see Fig 4 in the publication.
]]>2021-06-01T09:02:14+02:002021-09-22T10:56:04+02:00text/csvcsv83871https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-0Ar metastable densities in the effluent of a filamentary APPJ - Fig. 4_exponential decay (fit)Example of the time evolution of the Ar* density at z = 0.1 mm, 70 ppm water in 3 slm Ar feed gas, and a gas curtain of 5 slm O₂, together with a fit of the exponential decay. – see Fig 4 in the publication.
]]>2021-06-01T09:04:03+02:002021-09-22T10:56:04+02:00text/csvcsv17912https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-3Ar metastable densities in the effluent of a filamentary APPJ - Fig. 5a and 6aAbsorbance as a function of time for 70 ppm humidity in the feed gas, while a gas curtain of 5 slm O₂ was applied. The distance to the nozzle was set to z = 0.1 mm. The highest absorption peaks are also shown as well as the mean absorbance. – see Fig 5 in the publication.
]]>2021-06-01T09:11:01+02:002021-09-22T10:56:04+02:00text/csvcsv28307506https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-4Ar metastable densities in the effluent of a filamentary APPJ - Fig. 5b and 6bAbsorbance as a function of time for 879 ppm humidity in the feed gas, while a gas curtain of 5 slm O₂ was applied. The distance to the nozzle was set to z = 0.1 mm. The highest absorption peaks are also shown as well as the mean absorbance. – see Fig 5 in the publication.
]]>2021-06-01T09:11:48+02:002021-09-22T10:56:04+02:00text/csvcsv28307506https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-5Ar metastable densities in the effluent of a filamentary APPJ - Fig. 7aAr* density as a function of time, the detected peaks, and the mean of the (20) highest peaks are shown together with a voltage signal with an arbitrary amplitude and phase, and a frequency equal to the operating frequency of the plasma jet. The humidity of the feed gas, the curtain gas composition, and the distance to the nozzle z were varied: humidity: 70 ppm, gas curtain: 5 slm O₂, z = 0.1 mm – see Fig 7 in the publication.
]]>2021-06-01T09:13:21+02:002021-09-22T10:56:04+02:00text/csvcsv268316https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-6Ar metastable densities in the effluent of a filamentary APPJ - Fig. 7bAr* density as a function of time, the detected peaks, and the mean of the (20) highest peaks are shown together with a voltage signal with an arbitrary amplitude and phase, and a frequency equal to the operating frequency of the plasma jet. The humidity of the feed gas, the curtain gas composition, and the distance to the nozzle z were varied: humidity: 879 ppm water, gas curtain: 5 slm O₂, z = 0.1 mm – see Fig 7 in the publication.
]]>2021-06-01T09:14:59+02:002021-09-22T10:56:04+02:00text/csvcsv269520https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-7Ar metastable densities in the effluent of a filamentary APPJ - Fig. 7cAr* density as a function of time, the detected peaks, and the mean of the (20) highest peaks are shown together with a voltage signal with an arbitrary amplitude and phase, and a frequency equal to the operating frequency of the plasma jet. The humidity of the feed gas, the curtain gas composition, and the distance to the nozzle z were varied: humidity: 70 ppm, gas curtain: 5 slm O₂, z = 4.0 mm. - see Fig 7 in the publication.
]]>2021-06-01T09:19:30+02:002021-09-22T10:56:04+02:00text/csvcsv268290https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-8Ar metastable densities in the effluent of a filamentary APPJ - Fig. 7dAr* density as a function of time, the detected peaks, and the mean of the (20) highest peaks are shown together with a voltage signal with an arbitrary amplitude and phase, and a frequency equal to the operating frequency of the plasma jet. The humidity of the feed gas, the curtain gas composition, and the distance to the nozzle z were varied: humidity: 75 ppm, gas curtain: 5 slm N₂, z = 0.1 mm. – see Fig 7 in the publication.
]]>2021-06-01T09:21:36+02:002021-09-22T10:56:04+02:00text/csvcsv263297https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-9Ar metastable densities in the effluent of a filamentary APPJ - Fig. 8aRatio of the Fourier amplitudes of the first harmonic and the fundamental excitation frequency as a function of the feed gas humidity for the gas curtain compositions: 5 slm O₂ and various distances from the nozzle z. – see Fig 8 in the publication.
]]>2021-06-01T09:27:43+02:002021-09-22T10:56:04+02:00text/csvcsv601https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-10Ar metastable densities in the effluent of a filamentary APPJ - Fig. 8bRatio of the Fourier amplitudes of the first harmonic and the fundamental excitation frequency as a function of the feed gas humidity for the gas curtain compositions: 5 slm N₂ and various distances from the nozzle z. – see Fig 8 in the publication.
]]>2021-06-01T09:34:59+02:002021-09-22T10:56:04+02:00text/csvcsv374https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-11Ar metastable densities in the effluent of a filamentary APPJ - Fig. 8cRatio of the Fourier amplitudes of the first harmonic and the fundamental excitation frequency as a function of the feed gas humidity for the gas curtain composition: 1 slm O₂ and various distances from the nozzle z. – see Fig 8 in the publication.
]]>2021-06-01T09:36:25+02:002021-09-22T10:56:04+02:00text/csvcsv445https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-12Ar metastable densities in the effluent of a filamentary APPJ - Fig. 9aMean of the effective lifetimes of the (20) highest Ar* absorption peaks at z = 0.1 mm, z = 2.0 mm, and z = 4.0 mm as a function of the feed gas humidity for the gas curtain composition 5 slm O₂ and various distances from the nozzle z. – see Fig 9 in the publication.
]]>2021-06-01T09:43:10+02:002021-09-22T10:56:04+02:00text/csvcsv664https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-13Ar metastable densities in the effluent of a filamentary APPJ - Fig. 9bMean of the effective lifetimes of the (20) highest Ar* absorption peaks at z = 0.1 mm, z = 2.0 mm, and z = 4.0 mm as a function of the feed gas humidity for the gas curtain composition 5 slm N₂ and various distances from the nozzle z. – see Fig 9 in the publication.
]]>2021-06-01T09:46:28+02:002021-09-22T10:56:04+02:00text/csvcsv446https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-14Ar metastable densities in the effluent of a filamentary APPJ - Fig. 9cMean of the effective lifetimes of the (20) highest Ar* absorption peaks at z = 0.1 mm, z = 2.0 mm, and z = 4.0 mm as a function of the feed gas humidity for the gas curtain composition 4 slm N₂ and 1 slm O₂ and various distances from the nozzle z. – see Fig 9 in the publication.
]]>2021-06-01T09:55:03+02:002021-09-22T10:56:04+02:00text/csvcsv535https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-15Ar metastable densities in the effluent of a filamentary APPJ - Fig. 10_4slmN₂1slmO₂Decay rates of the Ar* densities, obtained from the mean half time of the (20) highest peaks, as a function of the humidity content in the feed gas at z = 0.1 mm, z = 1.0 mm, z = 2.0 mm, z = 3.0 mm, and z = 4.0 mm, while the gas curtain was varied from 5 slm O₂ to 1 slm O₂ and 4 slm N₂, and to 5 slm N₂ (Fig10). Together with the decay rates, a linear fit of the data is given (Fig10_fit). – see Fig 10 in the publication.
]]>2021-06-01T09:57:19+02:002021-09-22T10:56:04+02:00text/csvcsv1170https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-16Ar metastable densities in the effluent of a filamentary APPJ - Fig. 10_5slmN₂Decay rates of the Ar* densities, obtained from the mean half time of the (20) highest peaks, as a function of the humidity content in the feed gas at z = 0.1 mm, z = 1.0 mm, z = 2.0 mm, z = 3.0 mm, and z = 4.0 mm, while the gas curtain was varied from 5 slm O₂ to 1 slm O₂ and 4 slm N₂, and to 5 slm N₂ (Fig10). Together with the decay rates, a linear fit of the data is given (Fig10_fit). – see Fig 10 in the publication.
]]>2021-06-01T10:02:06+02:002021-09-22T10:56:04+02:00text/csvcsv942https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-18Ar metastable densities in the effluent of a filamentary APPJ - Fig. 10_5slmO₂Decay rates of the Ar* densities, obtained from the mean half time of the (20) highest peaks, as a function of the humidity content in the feed gas at z = 0.1 mm, z = 1.0 mm, z = 2.0 mm, z = 3.0 mm, and z = 4.0 mm, while the gas curtain was varied from 5 slm O₂ to 1 slm O₂ and 4 slm N₂, and to 5 slm N₂ (Fig10). Together with the decay rates, a linear fit of the data is given (Fig10_fit). – see Fig 10 in the publication.
]]>2021-06-01T10:02:56+02:002021-09-22T10:56:04+02:00text/csvcsv1452https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-19Ar metastable densities in the effluent of a filamentary APPJ - Fig. 10_decay rate (fit)Decay rates of the Ar* densities, obtained from the mean half time of the (20) highest peaks, as a function of the humidity content in the feed gas at z = 0.1 mm, z = 1.0 mm, z = 2.0 mm, z = 3.0 mm, and z = 4.0 mm, while the gas curtain was varied from 5 slm O₂ to 1 slm O₂ and 4 slm N₂, and to 5 slm N₂ (Fig10). Together with the decay rates, a linear fit of the data is given (Fig10_fit). – see Fig 10 in the publication.
]]>2021-06-01T10:03:42+02:002021-09-22T10:56:04+02:00text/csvcsv22651https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-20Ar metastable densities in the effluent of a filamentary APPJ - Fig. 11Ar* density at z = 0.1 mm as a function of the humidity content in the feed gas (Fig11) together with a fit for three different gas curtain compositions (Fig11_fit). – see Fig 11 in the publication.
]]>2021-06-01T11:42:57+02:002021-09-22T10:56:04+02:00text/csvcsv809https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-17Ar metastable densities in the effluent of a filamentary APPJ - Fig. 11_gas curtain compositions (fit)Ar* density at z = 0.1 mm as a function of the humidity content in the feed gas (Fig11) together with a fit for three different gas curtain compositions (Fig11_fit). – see Fig 11 in the publication.
]]>2021-06-01T11:43:49+02:002021-09-22T10:56:04+02:00text/csvcsv21670https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-21Ar metastable densities in the effluent of a filamentary APPJ - Fig. 12aAxial Ar* densities for various humidity contents in the feed gas and the gas curtain composition: 5 slm O₂ and various distances from the nozzle z. – see Fig 12 in the publication.
]]>2021-06-01T11:46:49+02:002021-09-22T10:56:04+02:00text/csvcsv1382https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-22Ar metastable densities in the effluent of a filamentary APPJ - Fig. 12bAxial Ar* densities for various humidity contents in the feed gas and the gas curtain composition: 5 slm N₂ and various distances from the nozzle z. – see Fig 12 in the publication.
]]>2021-06-01T11:48:59+02:002021-09-22T10:56:04+02:00text/csvcsv809https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-23Ar metastable densities in the effluent of a filamentary APPJ - Fig. 12cAxial Ar* densities for various humidity contents in the feed gas and the gas curtain composition: 4 slm N₂, 1 slm O₂ and various distances from the nozzle z. – see Fig 12 in the publication.
]]>2021-06-01T11:51:09+02:002021-09-22T10:56:04+02:00text/csvcsv879https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-24Ar metastable densities in the effluent of a filamentary APPJ - Fig. 13Upper limit of the OH and H density produced in the effluent and obtained from the dissociation of water by Ar*. – see Fig 13 in the publication.
]]>2021-06-01T11:52:17+02:002021-09-22T10:56:04+02:00text/csvcsv772https://www.inptdat.de/dataset/ar-metastable-densities-%C2%B3p%E2%82%82-effluent-filamentary-atmospheric-pressure-plasma-jet-25DKANhttps://www.inptdat.de