Luminescence study of Si - and Ge - implanted (1̄102) sapphires

Sung Kim; Suk Ho Choi; C. J. Park; H. Y. Cho; R. G. Elliman

Luminescence study of Si ^- and Ge ^- implanted (1̄102) sapphires

Sung Kim, Suk Ho Choi, C. J. Park, H. Y. Cho, R. G. Elliman

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

7 Citations (Scopus)

Abstract

Implantation with 30 keV Si ^- or Ge ^- and subsequent annealing at 1100°C create nanocrystalline Si or Ge (nc-Si or nc-Ge) in host materials such as (1̄102) sapphire and fused silica. Photoluminescence (PL) and cathodluminescence (CL) have been used to investigate luminescence properties of nc-Si or nc-Ge embedded in the host materials. Light emissions from Si ^-- or Ge ^-- implanted samples are compared with those from O ^-- and Al ^-- implanted ones in order to investigate whether they are from nc-Si (or nc-Ge) or defect-related. The CL band at 574 nm and the PL band at 1380 nm are interpreted as Si- and Ge-nanocrystal-related, respectively, and the CL bands at 328 and 411 nm as defect-related. Especially, the 411-nm band is found after annealing as well as before annealing and sharply increases on increasing the implant dose. This indicates that even high-temperature annealing cannot completely rule out implantation-induced defect luminescence.

Original language	English
Pages (from-to)	S501-S504
Journal	Journal of the Korean Physical Society
Volume	45
Issue number	SUPPL.
Publication status	Published - Dec 2004

Keywords

Cathodoluminescence
Defect
Ge Nanocrystals
Implantation
Photoluminescence
Sapphire
Si Nanocrystals

Cite this

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title = "Luminescence study of Si - and Ge - implanted ({\=1}102) sapphires",

abstract = "Implantation with 30 keV Si - or Ge - and subsequent annealing at 1100°C create nanocrystalline Si or Ge (nc-Si or nc-Ge) in host materials such as ({\=1}102) sapphire and fused silica. Photoluminescence (PL) and cathodluminescence (CL) have been used to investigate luminescence properties of nc-Si or nc-Ge embedded in the host materials. Light emissions from Si -- or Ge -- implanted samples are compared with those from O -- and Al -- implanted ones in order to investigate whether they are from nc-Si (or nc-Ge) or defect-related. The CL band at 574 nm and the PL band at 1380 nm are interpreted as Si- and Ge-nanocrystal-related, respectively, and the CL bands at 328 and 411 nm as defect-related. Especially, the 411-nm band is found after annealing as well as before annealing and sharply increases on increasing the implant dose. This indicates that even high-temperature annealing cannot completely rule out implantation-induced defect luminescence.",

keywords = "Cathodoluminescence, Defect, Ge Nanocrystals, Implantation, Photoluminescence, Sapphire, Si Nanocrystals",

author = "Sung Kim and Choi, {Suk Ho} and Park, {C. J.} and Cho, {H. Y.} and Elliman, {R. G.}",

year = "2004",

month = dec,

language = "English",

volume = "45",

pages = "S501--S504",

journal = "Journal of the Korean Physical Society",

issn = "0374-4884",

publisher = "Korean Physical Society",

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}

TY - JOUR

T1 - Luminescence study of Si - and Ge - implanted (1̄102) sapphires

AU - Kim, Sung

AU - Choi, Suk Ho

AU - Park, C. J.

AU - Cho, H. Y.

AU - Elliman, R. G.

PY - 2004/12

Y1 - 2004/12

N2 - Implantation with 30 keV Si - or Ge - and subsequent annealing at 1100°C create nanocrystalline Si or Ge (nc-Si or nc-Ge) in host materials such as (1̄102) sapphire and fused silica. Photoluminescence (PL) and cathodluminescence (CL) have been used to investigate luminescence properties of nc-Si or nc-Ge embedded in the host materials. Light emissions from Si -- or Ge -- implanted samples are compared with those from O -- and Al -- implanted ones in order to investigate whether they are from nc-Si (or nc-Ge) or defect-related. The CL band at 574 nm and the PL band at 1380 nm are interpreted as Si- and Ge-nanocrystal-related, respectively, and the CL bands at 328 and 411 nm as defect-related. Especially, the 411-nm band is found after annealing as well as before annealing and sharply increases on increasing the implant dose. This indicates that even high-temperature annealing cannot completely rule out implantation-induced defect luminescence.

AB - Implantation with 30 keV Si - or Ge - and subsequent annealing at 1100°C create nanocrystalline Si or Ge (nc-Si or nc-Ge) in host materials such as (1̄102) sapphire and fused silica. Photoluminescence (PL) and cathodluminescence (CL) have been used to investigate luminescence properties of nc-Si or nc-Ge embedded in the host materials. Light emissions from Si -- or Ge -- implanted samples are compared with those from O -- and Al -- implanted ones in order to investigate whether they are from nc-Si (or nc-Ge) or defect-related. The CL band at 574 nm and the PL band at 1380 nm are interpreted as Si- and Ge-nanocrystal-related, respectively, and the CL bands at 328 and 411 nm as defect-related. Especially, the 411-nm band is found after annealing as well as before annealing and sharply increases on increasing the implant dose. This indicates that even high-temperature annealing cannot completely rule out implantation-induced defect luminescence.

KW - Cathodoluminescence

KW - Defect

KW - Ge Nanocrystals

KW - Implantation

KW - Photoluminescence

KW - Sapphire

KW - Si Nanocrystals

UR - http://www.scopus.com/inward/record.url?scp=12744271526&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:12744271526

SN - 0374-4884

VL - 45

SP - S501-S504

JO - Journal of the Korean Physical Society

JF - Journal of the Korean Physical Society

IS - SUPPL.

ER -

Luminescence study of Si ^- and Ge ^- implanted (1̄102) sapphires

Abstract

Keywords

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