Growth and characterization of 70Gen/74Gen isotope superlattices

K. Morita; K. M. Itoh; J. Muto; K. Mizoguchi; N. Usami; Y. Shiraki; E. E. Haller

doi:10.1016/S0040-6090(00)00901-9

Growth and characterization of ⁷⁰Ge_n/⁷⁴Ge_n isotope superlattices

K. Morita, K. M. Itoh, J. Muto, K. Mizoguchi, N. Usami, Y. Shiraki, E. E. Haller

塾長

研究成果: Conference article › 査読

19 被引用数 (Scopus)

抄録

We report on the molecular beam epitaxial (MBE) growth of ⁷⁰Ge_n/⁷⁴Ge_n isotope superlattices composed of alternating layers of the stable isotopes ⁷⁰Ge and ⁷⁴Ge. Samples prepared in this work have atomic layers n = 4, 8, 16, and 32. All superlattices are p-type having a netimpurity concentration of approximately 10¹⁶ cm^-3. Zone-folding of optical phonons due to the mass periodicity in the growth direction has been observed clearly for all samples using high resolution Raman spectroscopy. The corresponding phonon mode of each Raman peak has been indexed according to theoretical calculations using the linear-chain model and the planar bond-charge model. The frequency of the Raman peaks found by the experiment agree very well with those of the phonon modes calculated for each superlattice structure. A detailed analysis of the Raman spectra concludes that the degree of interface mixing between ⁷⁰Ge and ⁷⁴Ge layers for our typical growth condition is less than two monolayers.

本文言語	English
ページ（範囲）	405-408
ページ数	4
ジャーナル	Thin Solid Films
巻	369
号	1
DOI	https://doi.org/10.1016/S0040-6090(00)00901-9
出版ステータス	Published - 2000 7月 3
イベント	The International Joint Conference on Silicon Epitaxyand Heterostructures (IJC-SI) - Miyagi, Jpn 継続期間: 1999 9月 12 → 1999 9月 17

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
表面および界面
表面、皮膜および薄膜
金属および合金
材料化学

文献へのアクセス

10.1016/S0040-6090(00)00901-9

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引用スタイル

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title = "Growth and characterization of 70Gen/74Gen isotope superlattices",

abstract = "We report on the molecular beam epitaxial (MBE) growth of 70Gen/74Gen isotope superlattices composed of alternating layers of the stable isotopes 70Ge and 74Ge. Samples prepared in this work have atomic layers n = 4, 8, 16, and 32. All superlattices are p-type having a netimpurity concentration of approximately 1016 cm-3. Zone-folding of optical phonons due to the mass periodicity in the growth direction has been observed clearly for all samples using high resolution Raman spectroscopy. The corresponding phonon mode of each Raman peak has been indexed according to theoretical calculations using the linear-chain model and the planar bond-charge model. The frequency of the Raman peaks found by the experiment agree very well with those of the phonon modes calculated for each superlattice structure. A detailed analysis of the Raman spectra concludes that the degree of interface mixing between 70Ge and 74Ge layers for our typical growth condition is less than two monolayers.",

author = "K. Morita and Itoh, {K. M.} and J. Muto and K. Mizoguchi and N. Usami and Y. Shiraki and Haller, {E. E.}",

note = "Funding Information: We wish to thank M. Nakajima for the fruitful discussion. The work at Keio is supported in part by a Grant-in-Aid for Scientific Research on the Priority Area {\textquoteleft}Spin Controlled Semiconductor Nanostructures{\textquoteright} from the Ministry of Education, Science, Sports, and Culture. The work at Berkeley was supported in part by the Director, Office of Energy Research, Office of Basic Energy Science, Materials Science Division of the U.S. Department of Energy under Contract No. DE-AC03-76SF00098 and in part by U.S. NSF Grant No. DMR-9732707.; The International Joint Conference on Silicon Epitaxyand Heterostructures (IJC-SI) ; Conference date: 12-09-1999 Through 17-09-1999",

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AU - Morita, K.

AU - Itoh, K. M.

AU - Muto, J.

AU - Mizoguchi, K.

AU - Usami, N.

AU - Shiraki, Y.

AU - Haller, E. E.

N1 - Funding Information: We wish to thank M. Nakajima for the fruitful discussion. The work at Keio is supported in part by a Grant-in-Aid for Scientific Research on the Priority Area ‘Spin Controlled Semiconductor Nanostructures’ from the Ministry of Education, Science, Sports, and Culture. The work at Berkeley was supported in part by the Director, Office of Energy Research, Office of Basic Energy Science, Materials Science Division of the U.S. Department of Energy under Contract No. DE-AC03-76SF00098 and in part by U.S. NSF Grant No. DMR-9732707.

PY - 2000/7/3

Y1 - 2000/7/3

N2 - We report on the molecular beam epitaxial (MBE) growth of 70Gen/74Gen isotope superlattices composed of alternating layers of the stable isotopes 70Ge and 74Ge. Samples prepared in this work have atomic layers n = 4, 8, 16, and 32. All superlattices are p-type having a netimpurity concentration of approximately 1016 cm-3. Zone-folding of optical phonons due to the mass periodicity in the growth direction has been observed clearly for all samples using high resolution Raman spectroscopy. The corresponding phonon mode of each Raman peak has been indexed according to theoretical calculations using the linear-chain model and the planar bond-charge model. The frequency of the Raman peaks found by the experiment agree very well with those of the phonon modes calculated for each superlattice structure. A detailed analysis of the Raman spectra concludes that the degree of interface mixing between 70Ge and 74Ge layers for our typical growth condition is less than two monolayers.

AB - We report on the molecular beam epitaxial (MBE) growth of 70Gen/74Gen isotope superlattices composed of alternating layers of the stable isotopes 70Ge and 74Ge. Samples prepared in this work have atomic layers n = 4, 8, 16, and 32. All superlattices are p-type having a netimpurity concentration of approximately 1016 cm-3. Zone-folding of optical phonons due to the mass periodicity in the growth direction has been observed clearly for all samples using high resolution Raman spectroscopy. The corresponding phonon mode of each Raman peak has been indexed according to theoretical calculations using the linear-chain model and the planar bond-charge model. The frequency of the Raman peaks found by the experiment agree very well with those of the phonon modes calculated for each superlattice structure. A detailed analysis of the Raman spectra concludes that the degree of interface mixing between 70Ge and 74Ge layers for our typical growth condition is less than two monolayers.

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