We present measurements of ion-energy distributions of the ions impinging o
n the grounded anode of a pulsed argon DC-glow discharge (cathode voltages
of -300 to -450 V, and a gas pressure of 0.5 mbar) with on and off pulse ti
mes of 100-900 mus. During the on pulses of the discharge, as expected, low
energy ions(< 10 eV) were observed, originating from the potential differe
nce between the plasma (i.e. the plasma potential) and the grounded anode.
However, during the initial tens of microseconds of the: off pulse, ions we
re detected with energies of the order of the cathode potential (i.e. sever
al hundred eV). Furthermore, voltage measurements of a floating anode show
that the plasma potential has a high positive voltage peak during the onset
of the off pulse. The explanation of the observed phenomena must be sought
in the sudden change in the boundary conditions of the discharge and the s
ubsequent redistribution of charged particles, leading ultimately to the co
llapse of the discharge. This has been confirmed by Monte-Carlo simulations
of the discharge. (C) 2001 Elsevier Science B.V. All rights reserved.