The effect of a material growth technique on ion-implanted Mn diffusion in GaAs

O. Koskelo; J. Raisanen; F. Tuomisto; Janusz Sadowski

doi:10.1088/0268-1242/24/4/045011

The effect of a material growth technique on ion-implanted Mn diffusion in GaAs

O. Koskelo, J. Raisanen, F. Tuomisto, Janusz Sadowski

MAX IV Laboratory

Research output: Contribution to journal › Article › peer-review

Abstract

Diffusion of ion-implanted Mn in semi-insulating (SI) and liquid encapsulated Czochralski (LEC)-grown GaAs has been determined employing the modified radiotracer technique. The effect of the growth technique and conditions on Mn diffusion in low temperature molecular beam epitaxy (LT-MBE)-grown GaAs has also been studied. Two distinct diffusion components appear in ion-implanted Mn diffusion in GaAs: slow and fast. As the diffusivity for the SI material is slightly higher than that for the LT-grown material, it is observed that the diffusivity of the fast component retards with increasing initial concentrations of Ga sublattice defects. At the same time the Mn concentration in the tail part of the diffusion profile is higher in the LT-grown material. Ga vacancy-assisted clustering of Mn is proposed as a likely reason for the observed effects.

Original language	English
Journal	Semiconductor Science and Technology
Volume	24
Issue number	4
DOIs	https://doi.org/10.1088/0268-1242/24/4/045011
Publication status	Published - 2009

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Natural Sciences
Physical Sciences

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title = "The effect of a material growth technique on ion-implanted Mn diffusion in GaAs",

abstract = "Diffusion of ion-implanted Mn in semi-insulating (SI) and liquid encapsulated Czochralski (LEC)-grown GaAs has been determined employing the modified radiotracer technique. The effect of the growth technique and conditions on Mn diffusion in low temperature molecular beam epitaxy (LT-MBE)-grown GaAs has also been studied. Two distinct diffusion components appear in ion-implanted Mn diffusion in GaAs: slow and fast. As the diffusivity for the SI material is slightly higher than that for the LT-grown material, it is observed that the diffusivity of the fast component retards with increasing initial concentrations of Ga sublattice defects. At the same time the Mn concentration in the tail part of the diffusion profile is higher in the LT-grown material. Ga vacancy-assisted clustering of Mn is proposed as a likely reason for the observed effects.",

author = "O. Koskelo and J. Raisanen and F. Tuomisto and Janusz Sadowski",

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T1 - The effect of a material growth technique on ion-implanted Mn diffusion in GaAs

AU - Koskelo, O.

AU - Raisanen, J.

AU - Tuomisto, F.

AU - Sadowski, Janusz

PY - 2009

Y1 - 2009

N2 - Diffusion of ion-implanted Mn in semi-insulating (SI) and liquid encapsulated Czochralski (LEC)-grown GaAs has been determined employing the modified radiotracer technique. The effect of the growth technique and conditions on Mn diffusion in low temperature molecular beam epitaxy (LT-MBE)-grown GaAs has also been studied. Two distinct diffusion components appear in ion-implanted Mn diffusion in GaAs: slow and fast. As the diffusivity for the SI material is slightly higher than that for the LT-grown material, it is observed that the diffusivity of the fast component retards with increasing initial concentrations of Ga sublattice defects. At the same time the Mn concentration in the tail part of the diffusion profile is higher in the LT-grown material. Ga vacancy-assisted clustering of Mn is proposed as a likely reason for the observed effects.

AB - Diffusion of ion-implanted Mn in semi-insulating (SI) and liquid encapsulated Czochralski (LEC)-grown GaAs has been determined employing the modified radiotracer technique. The effect of the growth technique and conditions on Mn diffusion in low temperature molecular beam epitaxy (LT-MBE)-grown GaAs has also been studied. Two distinct diffusion components appear in ion-implanted Mn diffusion in GaAs: slow and fast. As the diffusivity for the SI material is slightly higher than that for the LT-grown material, it is observed that the diffusivity of the fast component retards with increasing initial concentrations of Ga sublattice defects. At the same time the Mn concentration in the tail part of the diffusion profile is higher in the LT-grown material. Ga vacancy-assisted clustering of Mn is proposed as a likely reason for the observed effects.

U2 - 10.1088/0268-1242/24/4/045011

DO - 10.1088/0268-1242/24/4/045011

M3 - Article

SN - 0268-1242

VL - 24

JO - Semiconductor Science and Technology

JF - Semiconductor Science and Technology

IS - 4

ER -

The effect of a material growth technique on ion-implanted Mn diffusion in GaAs

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