Physics – Condensed Matter – Other Condensed Matter
Scientific paper
2007-07-12
Physics
Condensed Matter
Other Condensed Matter
4 Pages, 4 Figures, Accepted Physica E
Scientific paper
10.1016/j.physe.2007.07.007
We develop a scaling relationship between the exciton binding energy and the external dielectric function in carbon nanotubes. We show that the electron-electron and electron-hole interaction energies are strongly affected by screening yet largely counteract each other, resulting in much smaller changes in the optical transition energy. The model indicates that the relevant particle interaction energies are reduced by as much as 50 percent upon screening by water and that the unscreened electron-electron interaction energy is larger than the unscreened electron-hole interaction energy, in agreement with explanations of the "ratio problem." We apply the model to measurements of the changes in the optical transistion energies in single, suspended carbon nanotubes as the external dielectric environment is altered.
Cronin Stephen B.
Goldberg Bennett B.
Swan Anna K.
Unlu Selim M.
Vamivakas Anthony Nickolas
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