The effect of cross-field velocity shear of electrons on the plasma transport has been experimentally investigated in a steady-state filamentary plasma whose effective column radius rp is smaller than the ion Larmor radius ?i and much larger than the electron Larmor radius ?e (?e?rp<?i). When the shear frequency ?S (=v0/LE, where v0 is the maximum flow velocity in the sheared flow and LE is the shear scale length), which is the measure of the strength of the velocity shear, becomes much larger than the lower hybrid frequency, electrostatic plasma fluctuations of the lower hybrid range of frequency are excited in the significantly sheared flow. It is observed that these enhanced fluctuations induce the anomalous, non-ambipolar diffusion of electrons across magnetic field lines. The estimated cross-field diffusion coefficient of electrons obeys the Bohm scaling. The observed instability can be identified as the electron-ion hybrid shear instability through comparison between experimental and numerically obtained results.
[1]
S. Chandrasekhar.
Hydrodynamic and Hydromagnetic Stability
,
1961
.
[2]
Joseph E. Borovsky,et al.
Measurement techniques in space plasmas : particles
,
1998
.
[3]
M. Hudson,et al.
Observations of paired electrostatic shocks in the polar magnetosphere
,
1977
.
[4]
G. Ganguli,et al.
Equilibrium structure of the plasma sheet boundary layer-lobe interface
,
1990
.
[5]
L. Blomberg,et al.
On intense diverging electric fields associated with black aurora
,
1994
.
[6]
M. Koepke,et al.
Observation of ion‐cyclotron turbulence at small values of magnetic‐field‐aligned current
,
1994
.
[7]
G. Crew,et al.
Physics of space plasmas (1989)
,
1990
.