The distribution function for internal distances in a self-avoiding polymer chain

Yoshitsugu Oono; Takao Ohta

doi:10.1016/0375-9601(81)90445-X

The distribution function for internal distances in a self-avoiding polymer chain

Yoshitsugu Oono, Takao Ohta

Physics

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

Abstract

The distribution function P of the vector r connecting two arbitrary fixed points on a self-avoiding chain is calculated to order ε{lunate} = 4-d, d being the spatial dimensionality. This gives the cross-over behavior of P as a function of the length of the dangling ends.

Original language	English (US)
Pages (from-to)	480-482
Number of pages	3
Journal	Physics Letters A
Volume	85
Issue number	8-9
DOIs	https://doi.org/10.1016/0375-9601(81)90445-X
State	Published - Oct 19 1981

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Physics and Astronomy(all)

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@article{26f8207d02f04df8a9784c53ba58ccb2,

title = "The distribution function for internal distances in a self-avoiding polymer chain",

abstract = "The distribution function P of the vector r connecting two arbitrary fixed points on a self-avoiding chain is calculated to order ε{lunate} = 4-d, d being the spatial dimensionality. This gives the cross-over behavior of P as a function of the length of the dangling ends.",

author = "Yoshitsugu Oono and Takao Ohta",

note = "Funding Information: Y.O. is grateful to Professor K.F. Freed for his hospitality at the University of Chicago and for showing him a copy of Baumg{\"a}rtner{\textquoteright}s preprint. T.O. is grateful to Professor D. Jasnow for several useful discussions and for his hospitality at the University of Pittsburgh where this work was performed. We are grateful to Mr. M. Lipkin for carefully reading our manuscript. This research is supported, in part, by NSF Grant DMR 78-26630 and DMR 76-19443.",

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doi = "10.1016/0375-9601(81)90445-X",

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AU - Ohta, Takao

N1 - Funding Information: Y.O. is grateful to Professor K.F. Freed for his hospitality at the University of Chicago and for showing him a copy of Baumgärtner’s preprint. T.O. is grateful to Professor D. Jasnow for several useful discussions and for his hospitality at the University of Pittsburgh where this work was performed. We are grateful to Mr. M. Lipkin for carefully reading our manuscript. This research is supported, in part, by NSF Grant DMR 78-26630 and DMR 76-19443.

PY - 1981/10/19

Y1 - 1981/10/19

N2 - The distribution function P of the vector r connecting two arbitrary fixed points on a self-avoiding chain is calculated to order ε{lunate} = 4-d, d being the spatial dimensionality. This gives the cross-over behavior of P as a function of the length of the dangling ends.

AB - The distribution function P of the vector r connecting two arbitrary fixed points on a self-avoiding chain is calculated to order ε{lunate} = 4-d, d being the spatial dimensionality. This gives the cross-over behavior of P as a function of the length of the dangling ends.

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The distribution function for internal distances in a self-avoiding polymer chain

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