J. Overmeyer, R.J. Gambino
Physics Letters
Bubble propagation by the domain drag effect is studied as a function of bias field (Hb) in a GdCoAu amorphous film with pulse widths of 20, 40, and 50 ns and current densities in the 4×106 to 7×106 amp/cm2 range by pulsing currents directly through a stripline of amorphous material containing hexagonal arrays of bubbles. With 0<Hb<500 Oe the bubble velocity is largely independent of bias field remaining constant at a value of 65 m/sec; as the bias field is increased above 500 Oe the velocity decreases gradually through a minimum of 35 m/sec at 1100 Oe and then increases to 65 m/sec at Hb=1440 Oe.(AIP). © 1979, American Institute of Physics. All rights reserved.
J. Overmeyer, R.J. Gambino
Physics Letters
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Journal of Applied Physics
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