Journal article

Landau quantization effects in the charge-density-wave system (Per)2M(mnt)2 (where M = Au and Pt).

Abstract:: A finite transfer integral t(a) orthogonal to the conducting chains of a highly one-dimensional metal gives rise to empty and filled bands that simulate an indirect-gap semiconductor upon formation of a charge-density wave (CDW). In contrast to semiconductors such as Ge and Si with band gaps approximately 1 eV, the CDW system possesses an indirect gap with a greatly reduced energy scale, enabling moderate laboratory magnetic fields to have a major effect. The consequent variation of the thermodynamic gap with magnetic field due to Zeeman splitting and Landau quantization enables the electronic band structure parameters (transfer integrals, Fermi velocity) to be determined accurately. These parameters reveal the orbital quantization limit to be reached at approximately 20 T in (Per)2M(mnt)(2) salts, making them highly unlikely candidates for a recently proposed cascade of field-induced CDW states.

Publication status:: Published

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APA Style

McDonald, R., Harrison, N., Singleton, J., Bangura, A., Goddard, P., Ramirez, A., & Chi, X. (2005). Landau quantization effects in the charge-density-wave system (Per)2M(mnt)2 (where M = Au and Pt). Physical Review Letters, 94(10), 106404.

MLA Style

McDonald, R, et al. “Landau Quantization Effects in the Charge-Density-Wave System (Per)2M(Mnt)2 (Where M = Au and Pt).” Physical Review Letters, vol. 94, no. 10, 2005, p. 106404.

Chicago Style

McDonald, R, N Harrison, J Singleton, et al. 2005. “Landau Quantization Effects in the Charge-Density-Wave System (Per)2M(Mnt)2 (Where M = Au and Pt).” Physical Review Letters 94 (10): 106404.
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Publisher copy:: 10.1103/physrevlett.94.106404

Authors

+ McDonald, R More by this author

Role:: Author

+ Harrison, N More by this author

Role:: Author

+ Singleton, J More by this author

Role:: Author

+ Bangura, A More by this author

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+ Goddard, P More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Role:: Author

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Journal:: Physical Review Letters More from this journal
Volume:: 94
Issue:: 10
Pages:: 106404
Publication date:: 2005-03-01
DOI:: 10.1103/physrevlett.94.106404
EISSN:: 1079-7114
ISSN:: 0031-9007

Language:: English
Pubs id:: pubs:157305
UUID:: uuid:f07c0809-1495-47d6-b102-2e44d6b6d94c
Local pid:: pubs:157305
Source identifiers:: 157305
Deposit date:: 2012-12-19
ARK identifier:: ark:/29072/ora_f07c0809149547d6b1022e44d6b6d94c

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Copyright date:: 2005

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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