Charge compensation phenomena for polarization discontinuities in ferroelectric superlattices
Charge compensation phenomena for polarization discontinuities in ferroelectric superlattices
Based on the Landau-Ginzburg theory, the screening charge compensation phenomena for polarization discontinuities at interface in ferroelectric superlattices are investigated. Interface mixing leads to polarization continuity or discontinuity in superlattices. Free charge with equal but of opposite sign for alternate interface, driven by internal electric field, builds up to counteract the depolarization effect in superlattices. The charge density depends on the degree of interface mixing, and it approaches a saturated value when the mismatch of internal field or polarization at interface vanishes. Using PbTiO3/SrTiO3 (PT/ST) as a model system, the charge compensation phenomena for polarization discontinuities in superlattices is investigated by examining the polarization and internal electric field profiles. Dependence of local polarization and internal field at the interfaces on screening charge density is also examined in detail.
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Lim, K.-G.
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Chew, K.-H.
ee005c27-e238-489a-bc97-dc91ddfb0a9c
Wang, D.Y.
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Ong, L.-H.
0c7e041f-8ec9-4c48-bda0-a5c3d46e0876
Iwata, M.
940a0ed2-51a0-4cd1-9290-a5452c57f886
7 January 2015
Lim, K.-G.
927dad30-b19f-4376-8650-cdb1cbdd29b1
Chew, K.-H.
ee005c27-e238-489a-bc97-dc91ddfb0a9c
Wang, D.Y.
f6b1c43b-7271-42b0-982c-00055ce9e2c0
Ong, L.-H.
0c7e041f-8ec9-4c48-bda0-a5c3d46e0876
Iwata, M.
940a0ed2-51a0-4cd1-9290-a5452c57f886
Lim, K.-G., Chew, K.-H., Wang, D.Y., Ong, L.-H. and Iwata, M.
(2015)
Charge compensation phenomena for polarization discontinuities in ferroelectric superlattices.
Europhysics Letters, 108 (6), , [67011].
(doi:10.1209/0295-5075/108/67011).
Abstract
Based on the Landau-Ginzburg theory, the screening charge compensation phenomena for polarization discontinuities at interface in ferroelectric superlattices are investigated. Interface mixing leads to polarization continuity or discontinuity in superlattices. Free charge with equal but of opposite sign for alternate interface, driven by internal electric field, builds up to counteract the depolarization effect in superlattices. The charge density depends on the degree of interface mixing, and it approaches a saturated value when the mismatch of internal field or polarization at interface vanishes. Using PbTiO3/SrTiO3 (PT/ST) as a model system, the charge compensation phenomena for polarization discontinuities in superlattices is investigated by examining the polarization and internal electric field profiles. Dependence of local polarization and internal field at the interfaces on screening charge density is also examined in detail.
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Published date: 7 January 2015
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Local EPrints ID: 422851
URI: http://eprints.soton.ac.uk/id/eprint/422851
ISSN: 0295-5075
PURE UUID: 3297e987-5df1-4f21-be05-4ef438cac4d7
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Date deposited: 07 Aug 2018 16:30
Last modified: 15 Mar 2024 21:09
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Author:
K.-H. Chew
Author:
D.Y. Wang
Author:
L.-H. Ong
Author:
M. Iwata
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