S. Brazovskii et al., Plastic sliding of charge density waves: X-ray space resolved-studies versus theory of current conversion, PHYS REV B, 61(16), 2000, pp. 10640-10650
We present experimental and theoretical results on the distribution of defo
rmations experienced by a sliding charge density wave (CDW) in connection w
ith the normal =collective current conversion process. High-resolution (30-
100 mu m) x-ray measurements of the satellite positional shift q have been
performed on NbSe3 whiskers at 90 K. For the first time q has been determin
ed with application of direct, as well as pulsed, currents and in the immed
iate vicinity of the injection extraction contact. We observe a steep varia
tion of q near the contact that we model in terms of intensive nucleation p
rocesses of dislocation loops (DLs) at the host defects. A logarithmic time
decay between pulses implies a creep of pinned DLs. A small constant resid
ual gradient in the central part of the sample indicates that the conversio
n process is incomplete, consistent with a finite DL pinning threshold. On
the theory side, general equations are derived to describe inhomogeneous di
stributions of deformations, electric fields, and currents. Numerical model
ing under realistic experimental conditions is combined with model-independ
ent relations. We discuss both similarities and contradictions with earlier
studies.