Polar optical phonons in wurtzite spheroidal quantum dots: Theory and
  application to ZnO and ZnO/MgZnO nanostructures

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Abstract

Polar optical-phonon modes are derived analytically for spheroidal quantum dots with wurtzite crystal structure. The developed theory is applied to a freestanding spheroidal ZnO quantum dot and to a spheroidal ZnO quantum dot embedded into a MgZnO crystal. The wurtzite (anisotropic) quantum dots are shown to have strongly different polar optical-phonon modes in comparison with zincblende (isotropic) quantum dots. The obtained results allow one to explain and accurately predict phonon peaks in the Raman spectra of wurtzite nanocrystals, nanorods (prolate spheroids), and epitaxial quantum dots (oblate spheroids).

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Most cited references 4

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Optical Phonons in Finite Crystals

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Author and article information

Journal

Publication date Created: 29 November 2004

Article

DOI: 10.1088/0953-8984/17/7/003

ArXiV ID: cond-mat/0411742

SO-VID: 9c014547-a6b3-482f-85af-a87298c07d58

History

Custom metadata

Journal reference J. Phys.: Condens. Matter 17, 1085 (2005)

Comments 11 pages

Categories cond-mat.mes-hall

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