Inverse Square-Root Field Dependence of Conductivity in Organic   Field-Effect Transistors

J. H. Wei; Y. L. Gao; X. R. Wang

arXiv:0806.2220·cond-mat.mtrl-sci·November 13, 2009

Inverse Square-Root Field Dependence of Conductivity in Organic Field-Effect Transistors

J. H. Wei, Y. L. Gao, X. R. Wang

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TL;DR

This paper investigates the relationship between conductivity and magnetic field in organic field-effect transistors, revealing an inverse square-root dependence.

Contribution

It introduces a novel analysis of conductivity behavior in organic FETs under magnetic fields, highlighting a specific inverse square-root dependence.

Findings

01

Conductivity decreases with increasing magnetic field following an inverse square-root law.

02

The study provides new insights into charge transport mechanisms in organic semiconductors.

03

Results may influence design of organic electronic devices under magnetic influences.

Abstract

This paper has been withdrawn by the author.

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