High current, short length ion beam pulses appear to be a new alternat
ive for surface property modification of solids, due to the combined e
ffect of ion implantation with induced fast heating-cooling which this
process presents. The repetitive pulsed nitrogen implantation (with a
low energy plasma focus) of pure titanium with different pulse length
s (300 and 400 ns), and fluences per pulse ranging between 1.4 x 10(14
) and 1 x 10(15) cm(-2), with total accumulated fluences between 7 x 1
0(14) and 1.6 x 10(16) showed a surface heating effect with important
compositional and physical changes in the layers close to the surface.
XPS analysis showed TiN0.8, formation independent of the total range
of fluences used, with an increase in the superficial microhardness, w
hen short pulse lengths were used. A correlation between the N/Ti conc
entration ratio, the binding energy difference (Ti2p(3/2)-N1s) and the
x value in the stoichiometry of the TiNx compound formed was observed
for the long pulse length case.