Theory of biexcitons in mixed and segregated stack charge-transfer solids, molecular crystals and π-conjugated polymers

S. Mazumdar; F. Guo

doi:10.1016/0379-6779(96)80138-X

Theory of biexcitons in mixed and segregated stack charge-transfer solids, molecular crystals and π-conjugated polymers

Research output: Contribution to journal › Article › peer-review

Abstract

We discuss biexcitons within three different theoretical models in one dimension with excitonic interactions. We develop a general physical picture for optical absorption from the one-photon allowed exciton to the biexciton and to the two-exciton continuum in one dimension. Based on this picture, we propose a criterion of biexciton stability. The validity of our criterion of biexciton stability is proved in the strong-coupling limits of models describing mixed and segregated stack charge-transfer solids, while studies by other investigators have shown that the criterion also remains valid within the Frenkel exciton model with moderate exciton-exciton binding. Based on the same criterion of biexciton stability, we present theoretical evidence for stable biexcitons within the Coulomb-correlated model for π-conjugated polymers. High-energy picosecond photoinduced absorption in π-conjugated polymers is explained as a transition from the optical exciton to the biexciton.

Original language	English (US)
Pages (from-to)	187-193
Number of pages	7
Journal	Synthetic Metals
Volume	78
Issue number	3
DOIs	https://doi.org/10.1016/0379-6779(96)80138-X
State	Published - Apr 15 1996

Keywords

Biexcitons
Charge-transfer solids
Conjugated polymers
Molecular crystals
Theoretical study

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.1016/0379-6779(96)80138-X

Cite this

@article{145157333d62479b846eeac177e2f071,

title = "Theory of biexcitons in mixed and segregated stack charge-transfer solids, molecular crystals and π-conjugated polymers",

abstract = "We discuss biexcitons within three different theoretical models in one dimension with excitonic interactions. We develop a general physical picture for optical absorption from the one-photon allowed exciton to the biexciton and to the two-exciton continuum in one dimension. Based on this picture, we propose a criterion of biexciton stability. The validity of our criterion of biexciton stability is proved in the strong-coupling limits of models describing mixed and segregated stack charge-transfer solids, while studies by other investigators have shown that the criterion also remains valid within the Frenkel exciton model with moderate exciton-exciton binding. Based on the same criterion of biexciton stability, we present theoretical evidence for stable biexcitons within the Coulomb-correlated model for π-conjugated polymers. High-energy picosecond photoinduced absorption in π-conjugated polymers is explained as a transition from the optical exciton to the biexciton.",

keywords = "Biexcitons, Charge-transfer solids, Conjugated polymers, Molecular crystals, Theoretical study",

author = "S. Mazumdar and F. Guo",

note = "Funding Information: We are grateful to A.J. Epstein and L.J. Rothberg for their kind invitation to contribute to the Proceedings of the Con_ ference on Charge Transport in Electronic Polymers, held in honor of Esther Conwell. Conwell's work in the areas of CT solids as well as 'iT-conjugated polymers has continued to be a source of inspiration for our work for a number of years now. We acknowledge many useful discussions with Profes• sors E. Hanamura, M. Kuwata-Gonokarni, N. Peyghambarian and Z.V. Vardeny, and are particularly grateful to Professor Hanamura for his kind permission to reproduce Fig. 4 from Ref. [18]. This work was supported by the NSF (Grant No: ECS-9 408810), AFOSR (Grant No. F496 209 310 199) and the ONR (Grant No. NOOO 149410322).",

year = "1996",

month = apr,

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doi = "10.1016/0379-6779(96)80138-X",

language = "English (US)",

volume = "78",

pages = "187--193",

journal = "Synthetic Metals",

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publisher = "Elsevier BV",

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T1 - Theory of biexcitons in mixed and segregated stack charge-transfer solids, molecular crystals and π-conjugated polymers

AU - Mazumdar, S.

AU - Guo, F.

N1 - Funding Information: We are grateful to A.J. Epstein and L.J. Rothberg for their kind invitation to contribute to the Proceedings of the Con_ ference on Charge Transport in Electronic Polymers, held in honor of Esther Conwell. Conwell's work in the areas of CT solids as well as 'iT-conjugated polymers has continued to be a source of inspiration for our work for a number of years now. We acknowledge many useful discussions with Profes• sors E. Hanamura, M. Kuwata-Gonokarni, N. Peyghambarian and Z.V. Vardeny, and are particularly grateful to Professor Hanamura for his kind permission to reproduce Fig. 4 from Ref. [18]. This work was supported by the NSF (Grant No: ECS-9 408810), AFOSR (Grant No. F496 209 310 199) and the ONR (Grant No. NOOO 149410322).

PY - 1996/4/15

Y1 - 1996/4/15

N2 - We discuss biexcitons within three different theoretical models in one dimension with excitonic interactions. We develop a general physical picture for optical absorption from the one-photon allowed exciton to the biexciton and to the two-exciton continuum in one dimension. Based on this picture, we propose a criterion of biexciton stability. The validity of our criterion of biexciton stability is proved in the strong-coupling limits of models describing mixed and segregated stack charge-transfer solids, while studies by other investigators have shown that the criterion also remains valid within the Frenkel exciton model with moderate exciton-exciton binding. Based on the same criterion of biexciton stability, we present theoretical evidence for stable biexcitons within the Coulomb-correlated model for π-conjugated polymers. High-energy picosecond photoinduced absorption in π-conjugated polymers is explained as a transition from the optical exciton to the biexciton.

AB - We discuss biexcitons within three different theoretical models in one dimension with excitonic interactions. We develop a general physical picture for optical absorption from the one-photon allowed exciton to the biexciton and to the two-exciton continuum in one dimension. Based on this picture, we propose a criterion of biexciton stability. The validity of our criterion of biexciton stability is proved in the strong-coupling limits of models describing mixed and segregated stack charge-transfer solids, while studies by other investigators have shown that the criterion also remains valid within the Frenkel exciton model with moderate exciton-exciton binding. Based on the same criterion of biexciton stability, we present theoretical evidence for stable biexcitons within the Coulomb-correlated model for π-conjugated polymers. High-energy picosecond photoinduced absorption in π-conjugated polymers is explained as a transition from the optical exciton to the biexciton.

KW - Biexcitons

KW - Charge-transfer solids

KW - Conjugated polymers

KW - Molecular crystals

KW - Theoretical study

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SN - 0379-6779

VL - 78

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JO - Synthetic Metals

JF - Synthetic Metals

IS - 3

ER -

Theory of biexcitons in mixed and segregated stack charge-transfer solids, molecular crystals and π-conjugated polymers

Abstract

Keywords

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