This paper explores the high speed and high power aspects of fast writing i
n magnetic data storage. It describes the experimental methods and instrume
ntation needed to exercise thin-film write heads at excessively large write
currents (< 0.5 A), short pulse durations (greater than or equal to 200 ps
) and high frequencies (< 1 GHz). The not commercially available instrument
ation used is discussed in detail (avalanche pulse generator, head intercon
nect circuit). The thermal behavior of the head is investigated to ensure t
hat the temperature of the hottest yoke leg (P-2) does not exceed 250 degre
es C to avoid thermal degradation of the magnetic performance. The paper de
scribes various pulse write, AC-bias write and AC-burst erase methods. As a
n example, experimental results obtained for an "industry-typical" head are
reported and discussed, viz head footprints, saturation curves, write curr
ent needed for media magnetization reversal down to 200 ps, write field gra
dients, write field growth rates, high-frequency head efficiency, current l
evels needed for AC erasure versus frequency, and AC-bias writing results.