Implantation defects and n-type doping in Ge and Ge rich SiGe

A. R. Peaker; V. P. Markevich; B. Hamilton; I. D. Hawkins; J. Slotte; K. Kuitunen; F. Tuomisto; A. Satta; E. Simoen; N. V. Abrosimov

doi:10.1016/j.tsf.2008.08.088

Implantation defects and n-type doping in Ge and Ge rich SiGe

A. R. Peaker, V. P. Markevich, B. Hamilton, I. D. Hawkins, J. Slotte, K. Kuitunen, F. Tuomisto, A. Satta, E. Simoen, N. V. Abrosimov

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

Abstract

Germanium and germanium rich silicon germanium are of interest as channel materials for extremely scaled CMOS. Although PMOS performance is good the characteristics of germanium NMOS transistors are inadequate because the necessary high level of donor activation cannot be achieved in shallow junctions. In this work we describe a study of the activation and deactivation of donors in germanium using shallow phosphorous implants into p-type Ge and Ge or Si implants into Ge uniformly doped with Sb. The techniques of secondary ion mass spectrometry (SIMS), spreading resistance, DLTS and positron annihilation have been used to study the activation and defects evolution during various anneal stages. It is postulated that the primary reasons for low activation of donors are reactions with vacancies. These proceed as V-D which is thought to be mobile at the anneal temperature reacting with more donors to produce complexes of the form V-Dn or possibly V2-Dn which are acceptor like. © 2008 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	152-154
Number of pages	2
Journal	Thin Solid Films
Volume	517
Issue number	1
DOIs	https://doi.org/10.1016/j.tsf.2008.08.088
Publication status	Published - 3 Nov 2008

Keywords

Activation
DLTS
Donor doping
Germanium
Ion implantation
SiGe alloy

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10.1016/j.tsf.2008.08.088

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title = "Implantation defects and n-type doping in Ge and Ge rich SiGe",

abstract = "Germanium and germanium rich silicon germanium are of interest as channel materials for extremely scaled CMOS. Although PMOS performance is good the characteristics of germanium NMOS transistors are inadequate because the necessary high level of donor activation cannot be achieved in shallow junctions. In this work we describe a study of the activation and deactivation of donors in germanium using shallow phosphorous implants into p-type Ge and Ge or Si implants into Ge uniformly doped with Sb. The techniques of secondary ion mass spectrometry (SIMS), spreading resistance, DLTS and positron annihilation have been used to study the activation and defects evolution during various anneal stages. It is postulated that the primary reasons for low activation of donors are reactions with vacancies. These proceed as V-D which is thought to be mobile at the anneal temperature reacting with more donors to produce complexes of the form V-Dn or possibly V2-Dn which are acceptor like. {\textcopyright} 2008 Elsevier B.V. All rights reserved.",

keywords = "Activation, DLTS, Donor doping, Germanium, Ion implantation, SiGe alloy",

author = "Peaker, {A. R.} and Markevich, {V. P.} and B. Hamilton and Hawkins, {I. D.} and J. Slotte and K. Kuitunen and F. Tuomisto and A. Satta and E. Simoen and Abrosimov, {N. V.}",

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doi = "10.1016/j.tsf.2008.08.088",

language = "English",

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TY - JOUR

T1 - Implantation defects and n-type doping in Ge and Ge rich SiGe

AU - Peaker, A. R.

AU - Markevich, V. P.

AU - Hamilton, B.

AU - Hawkins, I. D.

AU - Slotte, J.

AU - Kuitunen, K.

AU - Tuomisto, F.

AU - Satta, A.

AU - Simoen, E.

AU - Abrosimov, N. V.

PY - 2008/11/3

Y1 - 2008/11/3

N2 - Germanium and germanium rich silicon germanium are of interest as channel materials for extremely scaled CMOS. Although PMOS performance is good the characteristics of germanium NMOS transistors are inadequate because the necessary high level of donor activation cannot be achieved in shallow junctions. In this work we describe a study of the activation and deactivation of donors in germanium using shallow phosphorous implants into p-type Ge and Ge or Si implants into Ge uniformly doped with Sb. The techniques of secondary ion mass spectrometry (SIMS), spreading resistance, DLTS and positron annihilation have been used to study the activation and defects evolution during various anneal stages. It is postulated that the primary reasons for low activation of donors are reactions with vacancies. These proceed as V-D which is thought to be mobile at the anneal temperature reacting with more donors to produce complexes of the form V-Dn or possibly V2-Dn which are acceptor like. © 2008 Elsevier B.V. All rights reserved.

AB - Germanium and germanium rich silicon germanium are of interest as channel materials for extremely scaled CMOS. Although PMOS performance is good the characteristics of germanium NMOS transistors are inadequate because the necessary high level of donor activation cannot be achieved in shallow junctions. In this work we describe a study of the activation and deactivation of donors in germanium using shallow phosphorous implants into p-type Ge and Ge or Si implants into Ge uniformly doped with Sb. The techniques of secondary ion mass spectrometry (SIMS), spreading resistance, DLTS and positron annihilation have been used to study the activation and defects evolution during various anneal stages. It is postulated that the primary reasons for low activation of donors are reactions with vacancies. These proceed as V-D which is thought to be mobile at the anneal temperature reacting with more donors to produce complexes of the form V-Dn or possibly V2-Dn which are acceptor like. © 2008 Elsevier B.V. All rights reserved.

KW - Activation

KW - DLTS

KW - Donor doping

KW - Germanium

KW - Ion implantation

KW - SiGe alloy

U2 - 10.1016/j.tsf.2008.08.088

DO - 10.1016/j.tsf.2008.08.088

M3 - Article

VL - 517

SP - 152

EP - 154

JO - Thin Solid Films

JF - Thin Solid Films

IS - 1

ER -

Implantation defects and n-type doping in Ge and Ge rich SiGe

Abstract

Keywords

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