Substantially low desorption barriers in recombinative desorption of deuterium from a Si(1 0 0) surface |
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Authors: | Y Narita Y Kihara S Inanaga A Namiki |
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Institution: | Department of Electrical Engineering, Kyushu Institute of Technology, Kitakyushu 804-8550, Japan |
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Abstract: | We have studied desorption kinetics of deuterium molecules from a Si(1 0 0) surface by means of temperature-programmed desorption (TPD) spectra and isothermal desorptions.Three desorption components, denoted as β1,A,β1,B, and C, can be distinguished in semi-logarithmic plots of the TPD spectra.Their peak positions and intensities are strongly affected by the surface preparation methods employed, either with or without annealing to control the initial D coverage .Peak C appears at the leading edge of the TPD peak.It accounts for only about 5% of the TPD peak at and it diminishes rapidly with decreasing , vanishing at .In contrast, together the β1,A and β1,B peaks account for the whole TPD peak at any less than 1.0 ML. The maximum of the β1,A peak is nearly constant at around the maximum temperature of the TPD peak.On the other hand, the β1,B peak appears on the high-temperature side of the TPD peak and it systematically shifts to higher temperatures with decreasing .These results imply that first- and second-order kinetics are operating for the β1,A and β1,B desorptions, respectively.Isothermal desorption experiments confirm the above predicted kinetics for a limited region, namely .From the results for the rate curve analysis, the desorption barriers are evaluated to be 1.6 ± 0.1 eV and 1.8 ± 0.1 eV for the β1,A and β1,B desorptions, respectively.These values are substantially lower than the widely accepted value of ∼2.5 eV. To reproduce the measured TPD spectra we take the Arrhenius-type rate equation containing the first- and second-order rate terms for the β1,A and β1,B desorptions.The TPD spectra measured for can be reasonably fit with the proposed rate equation when the values given above for Ed,A and Ed,B are used. For , however, the TPD curves are not fit with the same values; rather, the best-fit curves require values for Ed,A and Ed,B larger than those given above. Combining the present kinetics results with those obtained by STM along with the studies, the β1,A and β1,B peaks may be attributed to desorption along the 2H path, while peak C may be attributed to desorption along the 4H path. The atomistic desorption mechanism as well as the energy relationship between the desorption barrier and isosteric heat of adsorption are discussed. |
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Keywords: | Si(1 0 0) Hydrogen Desorption barrier Temperature-programmed desorption Isothermal desorption |
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