An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition

Maksym Myronov; Christopher Morrison; John Halpin; Stephen Rhead; Catarina Casteleiro; Jamie Foronda; Vishal Ajit Shah; David Leadley

doi:10.7567/JJAP.53.04EH02

An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition

Maksym Myronov
, Christopher Morrison
, John Halpin
, Stephen Rhead
, Catarina Casteleiro
, Jamie Foronda
, Vishal Ajit Shah
, David Leadley

SAMS UHI

Résultats de recherche: Article › Revue par des pairs

31 Citations (Scopus)

Résumé

An extremely high room temperature two-dimensional hole gas (2DHG) drift mobility of 4230 cm²V-1 s-1 in a compressively strained Ge quantum well (QW) heterostructure grown by an industrial type RP-CVD technique on a Si(001) substrate is reported. The low-temperature Hall mobility and carrier density of this structure, measured at 333 mK, are 777000cm2V-1 s-1 and 1.9×1011cm-2, respectively. These hole mobilities are the highest not only among the group-IV Si based semiconductors, but also among p-type III-V and II-VI ones. The obtained room temperature mobility is substantially higher than those reported so far for the Ge QW heterostructures and reveals a huge potential for further application of strained Ge QW in a wide variety of electronic and spintronic devices.

langue originale	English
Numéro d'article	04EH02
journal	Japanese Journal of Applied Physics
Volume	53
Numéro de publication	4 SPEC. ISSUE
Les DOIs	https://doi.org/10.7567/JJAP.53.04EH02
état	Published - 6 févr. 2014

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10.7567/JJAP.53.04EH02

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Myronov, M., Morrison, C., Halpin, J., Rhead, S., Casteleiro, C., Foronda, J., Shah, V. A., & Leadley, D. (2014). An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition. Japanese Journal of Applied Physics, 53(4 SPEC. ISSUE), Article 04EH02. https://doi.org/10.7567/JJAP.53.04EH02

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title = "An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition",

abstract = "An extremely high room temperature two-dimensional hole gas (2DHG) drift mobility of 4230 cm2V-1 s-1 in a compressively strained Ge quantum well (QW) heterostructure grown by an industrial type RP-CVD technique on a Si(001) substrate is reported. The low-temperature Hall mobility and carrier density of this structure, measured at 333 mK, are 777000cm2V-1 s-1 and 1.9×1011cm-2, respectively. These hole mobilities are the highest not only among the group-IV Si based semiconductors, but also among p-type III-V and II-VI ones. The obtained room temperature mobility is substantially higher than those reported so far for the Ge QW heterostructures and reveals a huge potential for further application of strained Ge QW in a wide variety of electronic and spintronic devices.",

author = "Maksym Myronov and Christopher Morrison and John Halpin and Stephen Rhead and Catarina Casteleiro and Jamie Foronda and Shah, \{Vishal Ajit\} and David Leadley",

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Myronov, M, Morrison, C, Halpin, J, Rhead, S, Casteleiro, C, Foronda, J, Shah, VA & Leadley, D 2014, 'An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition', Japanese Journal of Applied Physics, VOL. 53, Numéro 4 SPEC. ISSUE, 04EH02. https://doi.org/10.7567/JJAP.53.04EH02

An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition. / Myronov, Maksym; Morrison, Christopher; Halpin, John et al.
Dans: Japanese Journal of Applied Physics, Vol 53, Numéro 4 SPEC. ISSUE, 04EH02, 06.02.2014.

Résultats de recherche: Article › Revue par des pairs

TY - JOUR

T1 - An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition

AU - Myronov, Maksym

AU - Morrison, Christopher

AU - Halpin, John

AU - Rhead, Stephen

AU - Casteleiro, Catarina

AU - Foronda, Jamie

AU - Shah, Vishal Ajit

AU - Leadley, David

N1 - Unable to ascertain copyright. The author was not affiliated to SAMS at the time of publication.

PY - 2014/2/6

Y1 - 2014/2/6

N2 - An extremely high room temperature two-dimensional hole gas (2DHG) drift mobility of 4230 cm2V-1 s-1 in a compressively strained Ge quantum well (QW) heterostructure grown by an industrial type RP-CVD technique on a Si(001) substrate is reported. The low-temperature Hall mobility and carrier density of this structure, measured at 333 mK, are 777000cm2V-1 s-1 and 1.9×1011cm-2, respectively. These hole mobilities are the highest not only among the group-IV Si based semiconductors, but also among p-type III-V and II-VI ones. The obtained room temperature mobility is substantially higher than those reported so far for the Ge QW heterostructures and reveals a huge potential for further application of strained Ge QW in a wide variety of electronic and spintronic devices.

AB - An extremely high room temperature two-dimensional hole gas (2DHG) drift mobility of 4230 cm2V-1 s-1 in a compressively strained Ge quantum well (QW) heterostructure grown by an industrial type RP-CVD technique on a Si(001) substrate is reported. The low-temperature Hall mobility and carrier density of this structure, measured at 333 mK, are 777000cm2V-1 s-1 and 1.9×1011cm-2, respectively. These hole mobilities are the highest not only among the group-IV Si based semiconductors, but also among p-type III-V and II-VI ones. The obtained room temperature mobility is substantially higher than those reported so far for the Ge QW heterostructures and reveals a huge potential for further application of strained Ge QW in a wide variety of electronic and spintronic devices.

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An extremely high room temperature mobility of two-dimensional holes in a strained Ge quantum well heterostructure grown by reduced pressure chemical vapor deposition

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