Charge Transfer Excitons and Possible Exitonic Pairing in the Extended Three Band Hubbard Model
Exact diagonalisations of the extended Hubbard model are performed. In the insulating regime it is shown that the nearest neighbour copper-oxygen repulsion, $V$, leads to Frenkel excitons in the charge transfer gap at values of $V$ of the order of copper-oxygen hybridisation, $t$. In the metallic re...
| Main Authors: | , , |
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| Format: | Journal article |
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1995
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| _version_ | 1797050715454046208 |
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| author | Vermeulen, C Barford, W Gagliano, E |
| author_facet | Vermeulen, C Barford, W Gagliano, E |
| author_sort | Vermeulen, C |
| collection | OXFORD |
| description | Exact diagonalisations of the extended Hubbard model are performed. In the insulating regime it is shown that the nearest neighbour copper-oxygen repulsion, $V$, leads to Frenkel excitons in the charge transfer gap at values of $V$ of the order of copper-oxygen hybridisation, $t$. In the metallic regime it is shown that the static charge-transfer and density-density correlation functions diverge as a function of $V$, indicating a charge-tansfer instability and phase separation. This is accompanied by a softening of the $q \to 0$ mode of the dynamic correlation functions which is associated with the excitonic excitations responsible for the superconducting correlations observed in the proximity of the phase separation boundary of ref. \cite{cv95b}. |
| first_indexed | 2024-03-06T18:09:17Z |
| format | Journal article |
| id | oxford-uuid:02737bef-16df-413c-ad0c-ce8e633b7624 |
| institution | University of Oxford |
| last_indexed | 2024-03-06T18:09:17Z |
| publishDate | 1995 |
| record_format | dspace |
| spelling | oxford-uuid:02737bef-16df-413c-ad0c-ce8e633b76242022-03-26T08:40:47ZCharge Transfer Excitons and Possible Exitonic Pairing in the Extended Three Band Hubbard ModelJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:02737bef-16df-413c-ad0c-ce8e633b7624Symplectic Elements at Oxford1995Vermeulen, CBarford, WGagliano, EExact diagonalisations of the extended Hubbard model are performed. In the insulating regime it is shown that the nearest neighbour copper-oxygen repulsion, $V$, leads to Frenkel excitons in the charge transfer gap at values of $V$ of the order of copper-oxygen hybridisation, $t$. In the metallic regime it is shown that the static charge-transfer and density-density correlation functions diverge as a function of $V$, indicating a charge-tansfer instability and phase separation. This is accompanied by a softening of the $q \to 0$ mode of the dynamic correlation functions which is associated with the excitonic excitations responsible for the superconducting correlations observed in the proximity of the phase separation boundary of ref. \cite{cv95b}. |
| spellingShingle | Vermeulen, C Barford, W Gagliano, E Charge Transfer Excitons and Possible Exitonic Pairing in the Extended Three Band Hubbard Model |
| title | Charge Transfer Excitons and Possible Exitonic Pairing in the Extended
Three Band Hubbard Model |
| title_full | Charge Transfer Excitons and Possible Exitonic Pairing in the Extended
Three Band Hubbard Model |
| title_fullStr | Charge Transfer Excitons and Possible Exitonic Pairing in the Extended
Three Band Hubbard Model |
| title_full_unstemmed | Charge Transfer Excitons and Possible Exitonic Pairing in the Extended
Three Band Hubbard Model |
| title_short | Charge Transfer Excitons and Possible Exitonic Pairing in the Extended
Three Band Hubbard Model |
| title_sort | charge transfer excitons and possible exitonic pairing in the extended three band hubbard model |
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