1998
DOI: 10.1063/1.367262
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Spatial distributions of atomic hydrogen and C2 in an oxyacetylene flame in relation to diamond growth

Abstract: Two-dimensional laser induced fluorescence measurements are applied to the chemical vapour deposition of diamond by an oxyacetylene flame to visualize the distributions of atomic hydrogen and C 2 in the gas phase during diamond growth. Experiments are carried out in both laminar and turbulent flames and reveal that atomic hydrogen is ubiquitous at and beyond the flame front. Its presence extends to well outside the diamond deposition region, whereas the C 2 distribution is limited to the flame front and the ac… Show more

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Cited by 20 publications
(22 citation statements)
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“…At this value of d, however, the increase in concentration behind the flame front is evident in neither the simulations nor the measurements. From 2D LIF pictures, 35 and in particular from their color reproductions in Ref. 38, however, it is clear that the maximum atomic hydrogen concentration lies some distance away from the flame front, in agreement with our simulations.…”
Section: A Validation Of the Modelsupporting
confidence: 80%
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“…At this value of d, however, the increase in concentration behind the flame front is evident in neither the simulations nor the measurements. From 2D LIF pictures, 35 and in particular from their color reproductions in Ref. 38, however, it is clear that the maximum atomic hydrogen concentration lies some distance away from the flame front, in agreement with our simulations.…”
Section: A Validation Of the Modelsupporting
confidence: 80%
“…4, the simulated axial atomic hydrogen profile is compared to the profile measured with LIF. 35 The concentration predicted by 1D stagnation flow simulations is also depicted. At this flame-tip-to-substrate distance, the 2D profile matches the measured profile well, despite the large temperature gradients between the flame-tip and the substrate.…”
Section: A Validation Of the Modelmentioning
confidence: 99%
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“…13, which we have subsequently combined with a two-dimensional hydrodynamic model for laminar oxyacetylene flames. 14 These models were validated against experimental data [15][16][17][18] on growth rates and concentration profiles of gas phase intermediates C, CH, and H, as a function of flame-tip-to-substrate distance and substrate temperature. Our combined chemistry and hydrodynamic models were found to provide valuable insights in various important underlying mechanisms of oxyacetylene combustion CVD of diamond.…”
Section: Introductionmentioning
confidence: 99%