23 February 2008 C2 and CH rotational temperatures in diamond growth using CO2 laser-assisted combustion-flames
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Excited C2 and CH species occur abundantly in diamond growth using C2H2/O2, C2H2/C2H4/O2 and C2H4/O2 flames. The irradiation of some flames by a continuous-wave (CW) CO2 laser beam has resulted in increased optical emission intensity from the excited species and a change in the physical appearance of the flames due to resonant absorption of laser energy. Gas temperature in the flames is one of the most important parameters in the application of diamond growth. In atmospheric plasmas, the gas kinetic temperature is closely related to the rotational temperature of radical species in the plasmas. Optical emission spectroscopy (OES) was used to obtain molecular spectra of the excited C2 and CH species in the flames for a fixed gas of C2H2/C2H4/O2 flame at several laser energies. The rotational temperatures of CH were calculated using the Boltzmann plot method. In addition, synthetic C2 molecular spectra were compared with the experimental spectra to obtain temperature by the intensity ratio of selected spectrum components. For each condition, the temperatures obtained using these methods were correlated with the quality, grain size, and growth speed of diamond films on cemented tungsten carbide (WC-Co) substrates.
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T. Gebre, T. Gebre, J. Sun, J. Sun, H. Ling, H. Ling, Y. X. Han, Y. X. Han, M. Zao, M. Zao, Y. F. Lu, Y. F. Lu, "C2 and CH rotational temperatures in diamond growth using CO2 laser-assisted combustion-flames", Proc. SPIE 6880, Laser-based Micro- and Nanopackaging and Assembly II, 68800O (23 February 2008); doi: 10.1117/12.762168; https://doi.org/10.1117/12.762168


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