Uranium is the only element known so far to exhibit a charge-density wave (
CDW) instability (alpha phase; orthorhombic Cmcm space group, Z = 4, T-o =
43 K). The structure below the transition is complex, consisting of small d
isplacements of the atoms along all three of the orthorhombic axis. The mai
n displacement is associated with a doubling of the a-axis, and it has been
known for many years that the transition may be regarded as one in which a
soft phonon condenses at this point half way across the Brillouin zone. Th
e theory of Yamada (1993, Phys. Rev. B 47, 5641) suggests that the only imp
ortant component of the phonon wave vector is that along [100]. We report h
ere high-resolution neutron scattering experiments at low temperature which
show that the principal softening occurs at the exact CDW points in the Br
illouin zone. This result is in disagreement with the suggestions of Yamada
but in better agreement with a new theoretical approach by Fast(1998, Ph.D
. Thesis, Uppsala University, Sweden). (C) 1999 Elsevier Science B.V. All r
ights reserved.