Th. Finteis scite author profile

We study the electronic structure of the quasi-one-dimensional organic conductor TTF-TCNQ by means of density-functional band theory, Hubbard model calculations, and angle-resolved photoelectron spectroscopy (ARPES). The experimental spectra reveal significant quantitative and qualitative discrepancies to band theory. We demonstrate that the dispersive behavior as well as the temperature-dependence of the spectra can be consistently explained by the finite-energy physics of the one-dimensional Hubbard model at metallic doping. The model description can even be made quantitative, if one accounts for an enhanced hopping integral at the surface, most likely caused by a relaxation of the topmost molecular layer. Within this interpretation the ARPES data provide spectroscopic evidence for the existence of spin-charge separation on an energy scale of the conduction band width. The failure of the one-dimensional Hubbard model for the low-energy spectral behavior is attributed to interchain coupling and the additional effect of electron-phonon interaction.

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Erratum: Occupied and unoccupied electronic band structure ofWSe2[Phys. Rev. B55, 10 400 (1997)]

Finteis¹,

Hengsberger²,

Straub³

et al. 1999

Phys. Rev. B

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Valence-band maximum in the layered semiconductor WSe2: Application of constant-energy contour mapping by photoemission

et al. 1996

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Th. Finteis

Charge-Density-Wave Mechanism in2H−NbSe2: Photoemission Results

Occupied and unoccupied electronic band structure ofWSe2

Electronic structure of the quasi-one-dimensional organic conductor TTF-TCNQ

Erratum: Occupied and unoccupied electronic band structure ofWSe2[Phys. Rev. B55, 10 400 (1997)]

Valence-band maximum in the layered semiconductor WSe2: Application of constant-energy contour mapping by photoemission

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