P. Moser scite author profile

Positron-annihilationS-parameter measurements in thermal equilibrium on pure and carbon-doped (50 and 750 at. ppm) a-iron are presented. It is shown that trapping of positrons in both monovacancies and carbon-vacancy pairs occurs, even far above the dissociation temperature of the vacancy pairs. Therefore, a three-state trapping model is used in the analysis of the measured S curves. The vacancy-formation enthalpy in both the paramagnetic and ferromagnetic state is deduced: It is found to be 1.79%0.10 eV in the paramagnetic state and 2.0+0.2 eV in the ferromagnetic state. These values are larger than those published so far. The activation enthalpy for vacancy migration obtained by combining the values cited above with recently published self-diffusion enthalpy values confirms the applicability of the one-interstitial model in a-iron.

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Point Defects in FCC Fe-Cr-Ni Alloys

Dimitrov¹,

Benkaddour²,

Dimitrov³

et al. 1987

MSF

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Vacancy-Carbon Interaction in Iron

Hautojärvi¹,

Johansson²,

Vehanen³

et al. 1980

Phys. Rev. Lett.

106

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Gallium vacancies and gallium antisites as acceptors in electron-irradiated semi-insulating GaAs

et al. 1992

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P. Moser

Vacancies and carbon impurities inα- iron: Electron irradiation

Positron annihilation on pure and carbon-dopedα-iron in thermal equilibrium

Point Defects in FCC Fe-Cr-Ni Alloys

Vacancy-Carbon Interaction in Iron

Gallium vacancies and gallium antisites as acceptors in electron-irradiated semi-insulating GaAs

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