Observation of vertical Bloch lines using in-plane excitation fields

To study the motion of vertical Bloch lines (VBL) in stripe domain walls in ferrimagnetic garnet films the experimental technique of using pulse in-plane fields has been applied. In addition the dynamics of VBLs, single and in a pair, have been examined in numerical simulations based on J. Slonczews...

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Bibliographic Details
Published in:IEEE transactions on magnetics 1988-03, Vol.24 (2), p.1781-1783
Main Authors: Theile, J., Engemann, J.
Format: Article
Language:English
Subjects:
Coils
Conductors
Equations
Ferrimagnetic films
Garnet films
Numerical simulation
Optical pulses
Photography
Pulse measurements
Space vector pulse width modulation
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Summary:To study the motion of vertical Bloch lines (VBL) in stripe domain walls in ferrimagnetic garnet films the experimental technique of using pulse in-plane fields has been applied. In addition the dynamics of VBLs, single and in a pair, have been examined in numerical simulations based on J. Slonczewski's equations of wall motion (1982). In contrast to the commonly used domain-wall rocking method, wall parts having no VBLs affected by the excitation field are used, therefore giving a better detectability of VBLs. For detection purposes a sinusoidal AC in-plane field has been applied. For measuring dynamic properties of VBLs, single pulses of in-plane field with amplitudes up to 12 Oe and pulse widths varying from 200 ns to 2 mu s have been used. The velocity of VBLs, their mobility and their coercivity has been measured. The VBL velocity saturates at about 55 m/s. The measurements include overshoot. Simulations show large overshoots caused by the reduction of wall bending after pulse termination. High-speed photography during in-plane field pulsing reveals that the reduction in wall bending in real material is small.< >
ISSN:0018-9464
1941-0069
DOI:10.1109/20.11600