Recent experiments have shown that the high Reynolds number turbulent
flow of superfluid helium is similar to classical turbulence. To under
stand this evidence we have developed an idealized model of normal flu
id turbulence which is based on vorticity tubes and we have studied nu
merically the behavior of superfluid quantized vortex lines in this mo
del of turbulent normal flow. We have found that the vortex lines form
ordered superfluid vortex bundles in regions of high normal fluid vor
ticity. A vortex wave instability and mutual friction are responsible
for generating a high density of vortex lines such that the resulting
macroscopic superfluid vorticity and the driving normal fluid vorticit
y patterns match. The results are discussed from the point of view of
the idea, put forward to explain experiments, that in the isothermal,
turbulent how of He II a high density of vortex lines locks the two fl
uid components together and the resulting turbulent flow is that of a
classical Navier-Stokes fluid. (C) 1997 American Institute of Physics.