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Extended Phonon Collapse and the Origin of the Charge-Density-Wave in NbSe$_2$

We report inelastic x-ray scattering measurements of the temperature dependence of phonon dispersion in the prototypical charge-density-wave (CDW) compound NbSe2. Surprisingly, acoustic phonons soften to zero frequency and become overdamped over an extended region around the CDW wavevector. This extended phonon collapse is dramatically different from the sharp cusp in the phonon dispersion expected from Fermi surface nesting. Instead, our experiments combined with ab initio calculations, show that it is the wavevector dependence of the electron-phonon coupling that drives the CDW formation in NbSe$_2$ and determines its periodicity. This mechanism explains the so far enigmatic behavior of CDW in NbSe$_2$ and may provide a new approach to other strongly correlated systems where electron-phonon coupling is important.

preprint2011arXivOpen access
F. WeberS. RosenkranzJ. -P. CastellanR. OsbornR. HottR. HeidK. -P. BohnenT. EgamiA. H. SaidD. Reznik
cond-mat.str-el
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F. WeberS. RosenkranzJ. -P. CastellanR. OsbornR. HottR. HeidK. -P. BohnenT. EgamiA. H. SaidD. Reznik

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