离子注入硅中的单空位和间隙迁移

Monovacancy and interstitial migration in ion-implanted silicon.

作者信息

Coleman P G, Burrows C P

机构信息

Department of Physics, University of Bath, Bath BA2 7AY, United Kingdom.

出版信息

Phys Rev Lett. 2007 Jun 29;98(26):265502. doi: 10.1103/PhysRevLett.98.265502.

DOI:10.1103/PhysRevLett.98.265502

PMID:17678103

Abstract

The migration of monovacancies (V0) and self-interstitials (I) has been observed in ion-implanted low-doped float-zone silicon by variable-energy positron annihilation spectroscopy. V0 and I were created by the in situ implantation of approximately 20 keV helium ions below 50 K. Monitoring the time evolution of the vacancy response during isothermal heating enabled the measurement of activation energies for I and V(0) [corrected] migration of 0.078(7) and 0.46(28) eV, respectively. In highly As-doped Si, partial V annihilation occurs via free I migration, with a second stage of annealing, probably associated with V-As complexes, above room temperature.

摘要

通过可变能量正电子湮没光谱法，在离子注入的低掺杂浮区硅中观察到了单空位（V0）和自间隙原子（I）的迁移。V0和I是通过在50K以下原位注入约20keV的氦离子产生的。监测等温加热过程中空位响应的时间演变，能够分别测量I和V(0) [校正后]迁移的激活能，分别为0.078(7) eV和0.46(28) eV。在高砷掺杂的硅中，部分V湮灭通过自由I迁移发生，在室温以上存在第二阶段退火，这可能与V-As络合物有关。

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离子注入硅中的单空位和间隙迁移

Monovacancy and interstitial migration in ion-implanted silicon.

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离子注入硅中的单空位和间隙迁移

Monovacancy and interstitial migration in ion-implanted silicon.

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机构信息

出版信息