2011
DOI: 10.1088/0963-0252/20/1/015015
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Optical spectroscopy investigation of N2–CH4plasma jets simulating Titan atmospheric entry conditions

Abstract: Planetary probes penetrating at supersonic speed into high atmosphere require the development of composite materials for thermal protection of the surface exposed to a high enthalpy flux. Rarefied arc plasmas can be used to simulate the atmospheric re-entry plasmas. The aim of this paper is to describe the latest results of optical emission measurements of the CH (A-X) system, the CN violet (B-X) bands and the NH (A-X) electronic transitions in a N 2 -CH 4 plasma source (Titan's atmosphere) and in a gas mixtur… Show more

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Cited by 13 publications
(8 citation statements)
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“…Emission from NH molecule excited states have also been identified as a potential source of radiation. 54 Brandis et al 55 showed that the primary NH transition does not contribute significantly to the radiation as is, therefore, ignored in the present study. The effect of atomic line emission and photoionization from C and N atoms was also investigated, but was found to contribute less than 1% to the total radiative heat flux and are not considered throughout this study…”
Section: Rate Model and Radiation Modelingmentioning
confidence: 76%
“…Emission from NH molecule excited states have also been identified as a potential source of radiation. 54 Brandis et al 55 showed that the primary NH transition does not contribute significantly to the radiation as is, therefore, ignored in the present study. The effect of atomic line emission and photoionization from C and N atoms was also investigated, but was found to contribute less than 1% to the total radiative heat flux and are not considered throughout this study…”
Section: Rate Model and Radiation Modelingmentioning
confidence: 76%
“…The detailed description was discussed in our previous publication [18,19]. Based on the plasma theory and the methane dehydrogenation process in plasma, methyl cation (boldCH3+), methylene cation (boldCH2+), and methine cation (boldCH+) were formed in the ion source [20,21,22,23]. Therefore, the methyl group beam contained the above three kinds of cation.…”
Section: Methodsmentioning
confidence: 99%
“…Figure 3. Most prominent molecular bands and Balmer lines in nitromethane emission spectrum obtained at 50 eV and 0.4 nm optical resolution identified according to [15] and [19][20][21][22][23]. The spectrum has been corrected for the wavelength dependent sensitivity of the apparatus.…”
Section: Atomic Fragmentsmentioning
confidence: 99%