Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques

Lukas W. Snyman; Jerry M. Matjila; Herzl Aharoni; Monuko Du Plessis

Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques

Lukas W. Snyman, Jerry M. Matjila, Herzl Aharoni, Monuko Du Plessis

Research output: Contribution to conference › Paper › peer-review

4 Scopus citations

Abstract

In this paper we will report on the dependency of quantum efficiency of an avalanching light emitting junction on the current from an adjacent lying forward biased junction. The phenomenon is observed in a three terminal silicon CMOS bipolar junction light emitting device (Si CMOS BJT LED). Our observations show that the overall quantum efficiency and light emission from these type of devices can be improved to the N_Q=10^-4 regime. The device has the potential of being fully integratable with any standard CMOS integrated circuitry with no adaptation to the CMOS design and processing procedures and light emissions can be confined to submicron dimensions. The optical emissions is about four orders higher than the low frequency detectivity for silicon CMOS detectors of comparable dimension. Our two junction, three terminal device also enable modulation of the light emission by a third terminal contact while using two terminals for biasing. The reverse bias avalanche configuration of the avalanching light emitting junction offers modulation capabilities of the device to within the GHz range.

Original language	English
Pages	71-82
Number of pages	12
State	Published - 1 Dec 2004
Externally published	Yes
Event	IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004 - Berg-en-Dal, Kruger National Park, South Africa Duration: 8 Nov 2004 → 9 Nov 2004

Conference

Conference	IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004
Country/Territory	South Africa
City	Berg-en-Dal, Kruger National Park
Period	8/11/04 → 9/11/04

ASJC Scopus subject areas

Engineering (all)

Cite this

Snyman, L. W., Matjila, J. M., Aharoni, H., & Du Plessis, M. (2004). Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques. 71-82. Paper presented at IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004, Berg-en-Dal, Kruger National Park, South Africa.

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title = "Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques",

abstract = "In this paper we will report on the dependency of quantum efficiency of an avalanching light emitting junction on the current from an adjacent lying forward biased junction. The phenomenon is observed in a three terminal silicon CMOS bipolar junction light emitting device (Si CMOS BJT LED). Our observations show that the overall quantum efficiency and light emission from these type of devices can be improved to the NQ=10-4 regime. The device has the potential of being fully integratable with any standard CMOS integrated circuitry with no adaptation to the CMOS design and processing procedures and light emissions can be confined to submicron dimensions. The optical emissions is about four orders higher than the low frequency detectivity for silicon CMOS detectors of comparable dimension. Our two junction, three terminal device also enable modulation of the light emission by a third terminal contact while using two terminals for biasing. The reverse bias avalanche configuration of the avalanching light emitting junction offers modulation capabilities of the device to within the GHz range.",

author = "Snyman, {Lukas W.} and Matjila, {Jerry M.} and Herzl Aharoni and {Du Plessis}, Monuko",

year = "2004",

month = dec,

day = "1",

language = "English",

pages = "71--82",

note = "IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004 ; Conference date: 08-11-2004 Through 09-11-2004",

}

Snyman, LW, Matjila, JM, Aharoni, H & Du Plessis, M 2004, 'Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques', Paper presented at IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004, Berg-en-Dal, Kruger National Park, South Africa, 8/11/04 - 9/11/04 pp. 71-82.

Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques. / Snyman, Lukas W.; Matjila, Jerry M.; Aharoni, Herzl et al.
2004. 71-82 Paper presented at IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004, Berg-en-Dal, Kruger National Park, South Africa.

Research output: Contribution to conference › Paper › peer-review

TY - CONF

T1 - Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques

AU - Snyman, Lukas W.

AU - Matjila, Jerry M.

AU - Aharoni, Herzl

AU - Du Plessis, Monuko

PY - 2004/12/1

Y1 - 2004/12/1

N2 - In this paper we will report on the dependency of quantum efficiency of an avalanching light emitting junction on the current from an adjacent lying forward biased junction. The phenomenon is observed in a three terminal silicon CMOS bipolar junction light emitting device (Si CMOS BJT LED). Our observations show that the overall quantum efficiency and light emission from these type of devices can be improved to the NQ=10-4 regime. The device has the potential of being fully integratable with any standard CMOS integrated circuitry with no adaptation to the CMOS design and processing procedures and light emissions can be confined to submicron dimensions. The optical emissions is about four orders higher than the low frequency detectivity for silicon CMOS detectors of comparable dimension. Our two junction, three terminal device also enable modulation of the light emission by a third terminal contact while using two terminals for biasing. The reverse bias avalanche configuration of the avalanching light emitting junction offers modulation capabilities of the device to within the GHz range.

AB - In this paper we will report on the dependency of quantum efficiency of an avalanching light emitting junction on the current from an adjacent lying forward biased junction. The phenomenon is observed in a three terminal silicon CMOS bipolar junction light emitting device (Si CMOS BJT LED). Our observations show that the overall quantum efficiency and light emission from these type of devices can be improved to the NQ=10-4 regime. The device has the potential of being fully integratable with any standard CMOS integrated circuitry with no adaptation to the CMOS design and processing procedures and light emissions can be confined to submicron dimensions. The optical emissions is about four orders higher than the low frequency detectivity for silicon CMOS detectors of comparable dimension. Our two junction, three terminal device also enable modulation of the light emission by a third terminal contact while using two terminals for biasing. The reverse bias avalanche configuration of the avalanching light emitting junction offers modulation capabilities of the device to within the GHz range.

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M3 - Paper

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T2 - IEEE International Symposium on Electron Devices for Microwave and Optoelectronic Applications, EDMO 2004

Y2 - 8 November 2004 through 9 November 2004

ER -

Increasing the efficiency of three terminal silicon CMOS LED's through current density and carrier injection techniques

Abstract

Conference

ASJC Scopus subject areas

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