X-ray diffuse scattering as precursor of incommensurate Peierls transitions in one-dimensional organic charge transfer conductors
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Jean-Paul Pouget
Abstract
Quasi-one dimensional (1D) conductors of the TTF-TCNQ family of charge transfer salts exhibit a Peierls transition which stabilizes a periodic lattice distortion (PLD), accompanied by a charge density wave (CDW) modulation, with an incommensurate 2kF (and sometimes 4kF) wave vector related to the band filling of the 1D electronic subsystem. The Peierls instability is announced on an extended temperature range by 1D structural fluctuations giving rise to an X-ray diffuse scattering consisting of diffuse sheets in the reciprocal space. In this paper, we analyse quantitatively the thermal dependence of the correlation length of these 1D structural fluctuations, given by the inverse half-width of these diffuse sheets, and of the peak intensity of the diffuse scattering, using the correct treatment of the thermodynamics of the Peierls chain. From this analysis we are able to extract some microscopic parameters of the electron gas undergoing the Peierls instability, and, in particular, to quantify the importance of the electron-electron Coulomb repulsions. Finally, we examine the effect of the disorder on the Peierls instability and we show that defects modify the pretransitional fluctuations through the formation of Friedel oscillations whose development is controlled by the PLD-CDW response function of the Peierls chain.
© 2004 Oldenbourg Wissenschaftsverlag GmbH
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- Book Reviews
- Books Received
Artikel in diesem Heft
- Self-reciprocal redundant vector stars
- Editorial: Incommensurate Crystallography of Modulated and Composite Crystals
- An elementary introduction to superspace crystallography
- Methods of structural analysis and computer program JANA2000
- Flexible phases, modulated structures and the transmission electron microscope
- X-ray diffuse scattering as precursor of incommensurate Peierls transitions in one-dimensional organic charge transfer conductors
- Incommensurate modulations made visible by the Maximum Entropy Method in superspace
- The study of incommensurate structures as a probe to reveal atomic interactions in crystals
- High temperature structures of LiKSO4 crystals: normal and incommensurate phases
- Incommensurate crystal structures in the elements at high pressure
- Structural phase transitions in iodine under high pressure
- Incommensurate crystal structure of LiCd4(VO4)3
- An electron and X-ray diffraction study of the compositely modulated barium nickel hollandite Bax(NixTi8—x)O16, 1.16 < x < 1.32, solid solution
- Book Reviews
- Books Received
