Dispersion of the high-energy phonon modes in
  Nd$_{1.85}$Ce$_{0.15}$CuO$_4$

C. M. Varma; I. D. Brown; K. Yamada; L. Pintschovius; L. Pintschovius; M. Braden; M. Braden; P. Brüesch; T. Uefuji; W. Reichardt

research

Dispersion of the high-energy phonon modes in Nd $_{1.85}$ Ce $_{0.15}$ CuO $_4$

Authors: C. M. Varma
I. D. Brown
K. Yamada
L. Pintschovius
L. Pintschovius
M. Braden
M. Braden
P. Brüesch
T. Uefuji
W. Reichardt
Publication date: 7 July 2005
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The dispersion of the high-energy phonon modes in the electron doped high-temperature superconductor Nd

_{1.85}

Ce

_{0.15}

CuO

_4

has been studied by inelastic neutron scattering. The frequencies of phonon modes with Cu-O bond-stretching character drop abruptly when going from the Brillouin zone center along the [100]-direction; this dispersion is qualitatively similar to observations in the hole-doped cuprates. We also find a softening of the bond-stretching modes along the [110]-direction but which is weaker and exhibits a sinusoidal dispersion. The phonon anomalies are discussed in comparison to hole-doped cuprate superconductors and other metallic perovskites