Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer

L. Markovic; T. Knezevic; L. K. Nanver; T. Suligoj

doi:10.23919/MIPRO52101.2021.9597002

Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer

L. Markovic, T. Knezevic, L. K. Nanver, T. Suligoj

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

3 Citations (Scopus)

141 Downloads (Pure)

Abstract

Deposition of a nanometer-thin layer-stack of pure gallium and boron (PureGaB) on arsenic (As)-doped epitaxial germanium (Ge) forms a shallow-junction photodiode, reported to have almost ideal I-V characteristics, low saturation current densities, and high responsivity down to 255 nm wavelengths. In this work, different physical mechanisms that could explain the high anode Gummel number in PureGaB-Ge-on-Si diode have been examined. A model for point-defect-mediated diffusion of B and Ga in Ge has been developed. Formation of a shallow pn junction has been modeled using 1D process simulations of B and/or Ga drive-in from the PureGaB layer. B diffusion resulted in junction depths less than a nanometer deep, while Ga formed a highly doped p+ regions with peak concentrations> 10 cm and junction depths from 31 nm to 123 nm, depending on the applied sets of diffusion parameter. Both approaches have been used to fit the I-V characteristics of a fabricated PureGaB Ge-on-Si diode: B-only diffusion model with negative interface charge concentration of 1.9 10 cm for suppression of electron injection and Ga diffusion model, self-sufficient for the explanation of low electron current densities. Both proposed models give possibilities to obtain a Gummel number of ˜ 2×10 s/cm, matching the value extracted from I-V characteristics of a fabricated device.

Original language	English
Title of host publication	2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings
Editors	Marco Koricic, Karolj Skala, Zeljka Car, Marina Cicin-Sain, Snjezana Babic, Vlado Sruk, Dejan Skvorc, Slobodan Ribaric, Bojan Jerbic, Stjepan Gros, Boris Vrdoljak, Mladen Mauher, Edvard Tijan, Tihomir Katulic, Juraj Petrovic, Tihana Galinac Grbac, Nikola Filip Fijan, Vera Gradisnik
Publisher	IEEE
Pages	64-69
Number of pages	6
ISBN (Electronic)	9789532331011
DOIs	https://doi.org/10.23919/MIPRO52101.2021.9597002
Publication status	Published - 15 Nov 2021
Event	44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Opatija, Croatia Duration: 27 Sept 2021 → 1 Oct 2021 Conference number: 44

Conference

Conference	44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021
Abbreviated title	MIPRO 2021
Country/Territory	Croatia
City	Opatija
Period	27/09/21 → 1/10/21

Keywords

2022 OA procedure
boron
detector
diffusion
gallium
Ge-on-Si
germanium
infrared
interface charge layer
process simulations
PureGaB
anode Gummel number

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10.23919/MIPRO52101.2021.9597002

10.23919_mipro52101.2021.9597002Final published version, 843 KBLicence: Taverne

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Markovic, L., Knezevic, T., Nanver, L. K., & Suligoj, T. (2021). Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer. In M. Koricic, K. Skala, Z. Car, M. Cicin-Sain, S. Babic, V. Sruk, D. Skvorc, S. Ribaric, B. Jerbic, S. Gros, B. Vrdoljak, M. Mauher, E. Tijan, T. Katulic, J. Petrovic, T. G. Grbac, N. F. Fijan, & V. Gradisnik (Eds.), 2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings (pp. 64-69). IEEE. https://doi.org/10.23919/MIPRO52101.2021.9597002

Markovic, L. ; Knezevic, T. ; Nanver, L. K. et al. / Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer. 2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings. editor / Marco Koricic ; Karolj Skala ; Zeljka Car ; Marina Cicin-Sain ; Snjezana Babic ; Vlado Sruk ; Dejan Skvorc ; Slobodan Ribaric ; Bojan Jerbic ; Stjepan Gros ; Boris Vrdoljak ; Mladen Mauher ; Edvard Tijan ; Tihomir Katulic ; Juraj Petrovic ; Tihana Galinac Grbac ; Nikola Filip Fijan ; Vera Gradisnik. IEEE, 2021. pp. 64-69

@inproceedings{bbc51c98c29e471ea7f900b7c2d005c4,

title = "Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer",

abstract = "Deposition of a nanometer-thin layer-stack of pure gallium and boron (PureGaB) on arsenic (As)-doped epitaxial germanium (Ge) forms a shallow-junction photodiode, reported to have almost ideal I-V characteristics, low saturation current densities, and high responsivity down to 255 nm wavelengths. In this work, different physical mechanisms that could explain the high anode Gummel number in PureGaB-Ge-on-Si diode have been examined. A model for point-defect-mediated diffusion of B and Ga in Ge has been developed. Formation of a shallow pn junction has been modeled using 1D process simulations of B and/or Ga drive-in from the PureGaB layer. B diffusion resulted in junction depths less than a nanometer deep, while Ga formed a highly doped p+ regions with peak concentrations> 10 cm and junction depths from 31 nm to 123 nm, depending on the applied sets of diffusion parameter. Both approaches have been used to fit the I-V characteristics of a fabricated PureGaB Ge-on-Si diode: B-only diffusion model with negative interface charge concentration of 1.9 10 cm for suppression of electron injection and Ga diffusion model, self-sufficient for the explanation of low electron current densities. Both proposed models give possibilities to obtain a Gummel number of ˜ 2×10 s/cm, matching the value extracted from I-V characteristics of a fabricated device. ",

keywords = "2022 OA procedure, boron, detector, diffusion, gallium, Ge-on-Si, germanium, infrared, interface charge layer, process simulations, PureGaB, anode Gummel number",

author = "L. Markovic and T. Knezevic and Nanver, {L. K.} and T. Suligoj",

note = "Funding Information: This work has been fully supported by Croatian Science Foundation under the project IP-2018-01-5296. Publisher Copyright: {\textcopyright} 2021 Croatian Society MIPRO.; 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021, MIPRO 2021 ; Conference date: 27-09-2021 Through 01-10-2021",

year = "2021",

month = nov,

day = "15",

doi = "10.23919/MIPRO52101.2021.9597002",

language = "English",

pages = "64--69",

editor = "Marco Koricic and Karolj Skala and Zeljka Car and Marina Cicin-Sain and Snjezana Babic and Vlado Sruk and Dejan Skvorc and Slobodan Ribaric and Bojan Jerbic and Stjepan Gros and Boris Vrdoljak and Mladen Mauher and Edvard Tijan and Tihomir Katulic and Juraj Petrovic and Grbac, {Tihana Galinac} and Fijan, {Nikola Filip} and Vera Gradisnik",

booktitle = "2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings",

publisher = "IEEE",

address = "United States",

}

Markovic, L, Knezevic, T, Nanver, LK & Suligoj, T 2021, Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer. in M Koricic, K Skala, Z Car, M Cicin-Sain, S Babic, V Sruk, D Skvorc, S Ribaric, B Jerbic, S Gros, B Vrdoljak, M Mauher, E Tijan, T Katulic, J Petrovic, TG Grbac, NF Fijan & V Gradisnik (eds), 2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings. IEEE, pp. 64-69, 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021, Opatija, Croatia, 27/09/21. https://doi.org/10.23919/MIPRO52101.2021.9597002

Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer. / Markovic, L.; Knezevic, T.; Nanver, L. K. et al.
2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings. ed. / Marco Koricic; Karolj Skala; Zeljka Car; Marina Cicin-Sain; Snjezana Babic; Vlado Sruk; Dejan Skvorc; Slobodan Ribaric; Bojan Jerbic; Stjepan Gros; Boris Vrdoljak; Mladen Mauher; Edvard Tijan; Tihomir Katulic; Juraj Petrovic; Tihana Galinac Grbac; Nikola Filip Fijan; Vera Gradisnik. IEEE, 2021. p. 64-69.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer

AU - Markovic, L.

AU - Knezevic, T.

AU - Nanver, L. K.

AU - Suligoj, T.

N1 - Conference code: 44

PY - 2021/11/15

Y1 - 2021/11/15

N2 - Deposition of a nanometer-thin layer-stack of pure gallium and boron (PureGaB) on arsenic (As)-doped epitaxial germanium (Ge) forms a shallow-junction photodiode, reported to have almost ideal I-V characteristics, low saturation current densities, and high responsivity down to 255 nm wavelengths. In this work, different physical mechanisms that could explain the high anode Gummel number in PureGaB-Ge-on-Si diode have been examined. A model for point-defect-mediated diffusion of B and Ga in Ge has been developed. Formation of a shallow pn junction has been modeled using 1D process simulations of B and/or Ga drive-in from the PureGaB layer. B diffusion resulted in junction depths less than a nanometer deep, while Ga formed a highly doped p+ regions with peak concentrations> 10 cm and junction depths from 31 nm to 123 nm, depending on the applied sets of diffusion parameter. Both approaches have been used to fit the I-V characteristics of a fabricated PureGaB Ge-on-Si diode: B-only diffusion model with negative interface charge concentration of 1.9 10 cm for suppression of electron injection and Ga diffusion model, self-sufficient for the explanation of low electron current densities. Both proposed models give possibilities to obtain a Gummel number of ˜ 2×10 s/cm, matching the value extracted from I-V characteristics of a fabricated device.

AB - Deposition of a nanometer-thin layer-stack of pure gallium and boron (PureGaB) on arsenic (As)-doped epitaxial germanium (Ge) forms a shallow-junction photodiode, reported to have almost ideal I-V characteristics, low saturation current densities, and high responsivity down to 255 nm wavelengths. In this work, different physical mechanisms that could explain the high anode Gummel number in PureGaB-Ge-on-Si diode have been examined. A model for point-defect-mediated diffusion of B and Ga in Ge has been developed. Formation of a shallow pn junction has been modeled using 1D process simulations of B and/or Ga drive-in from the PureGaB layer. B diffusion resulted in junction depths less than a nanometer deep, while Ga formed a highly doped p+ regions with peak concentrations> 10 cm and junction depths from 31 nm to 123 nm, depending on the applied sets of diffusion parameter. Both approaches have been used to fit the I-V characteristics of a fabricated PureGaB Ge-on-Si diode: B-only diffusion model with negative interface charge concentration of 1.9 10 cm for suppression of electron injection and Ga diffusion model, self-sufficient for the explanation of low electron current densities. Both proposed models give possibilities to obtain a Gummel number of ˜ 2×10 s/cm, matching the value extracted from I-V characteristics of a fabricated device.

KW - 2022 OA procedure

KW - boron

KW - detector

KW - diffusion

KW - gallium

KW - Ge-on-Si

KW - germanium

KW - infrared

KW - interface charge layer

KW - process simulations

KW - PureGaB

KW - anode Gummel number

UR - http://www.scopus.com/inward/record.url?scp=85116428991&partnerID=8YFLogxK

U2 - 10.23919/MIPRO52101.2021.9597002

DO - 10.23919/MIPRO52101.2021.9597002

M3 - Conference contribution

AN - SCOPUS:85116428991

SP - 64

EP - 69

BT - 2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings

A2 - Koricic, Marco

A2 - Skala, Karolj

A2 - Car, Zeljka

A2 - Cicin-Sain, Marina

A2 - Babic, Snjezana

A2 - Sruk, Vlado

A2 - Skvorc, Dejan

A2 - Ribaric, Slobodan

A2 - Jerbic, Bojan

A2 - Gros, Stjepan

A2 - Vrdoljak, Boris

A2 - Mauher, Mladen

A2 - Tijan, Edvard

A2 - Katulic, Tihomir

A2 - Petrovic, Juraj

A2 - Grbac, Tihana Galinac

A2 - Fijan, Nikola Filip

A2 - Gradisnik, Vera

PB - IEEE

T2 - 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021

Y2 - 27 September 2021 through 1 October 2021

ER -

Markovic L, Knezevic T, Nanver LK, Suligoj T. Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer. In Koricic M, Skala K, Car Z, Cicin-Sain M, Babic S, Sruk V, Skvorc D, Ribaric S, Jerbic B, Gros S, Vrdoljak B, Mauher M, Tijan E, Katulic T, Petrovic J, Grbac TG, Fijan NF, Gradisnik V, editors, 2021 44th International Convention on Information, Communication and Electronic Technology, MIPRO 2021 - Proceedings. IEEE. 2021. p. 64-69 doi: 10.23919/MIPRO52101.2021.9597002

Modeling and Simulation Study of Electrical Properties of Ge-on-Si Diodes with Nanometer-thin PureGaB Layer

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