F.H. Liu scite author profile

3885Absrrucr -The mechanisms of popcorn noise in thin film heads were studied by correlating the inductance fluctuations under DC bias current, domain instabilities after write and popcorn noise probabilities.Inductance fluctuations of heads were obtained by calculating the standard deviations of the inductance values measured from 20 traces by a HP network analyzer.Instantaneous domain ' patterns during and after write a s well as popcorn noise probabilities of heads were observed by a 0.5-nsec exposure time wide-field Kerr effect microscope and a Barkhausen noise tester, respectively.A strong correlation was found among inductance fluctuations, domain instabilities and popcorn noise probabilities in a noisy head. This relationship w a s f u r t h e r confirmed by the quantitative correlation between the peak popcorn noise probabilities and peak inductance fluctuations of 12 different heads.Therefore, by measuring the inductance fluctuations of thin film heads under DC bias current, one can infer their susceptibilities to Barkhausen wall jumps, and thus popcorn noise p r o b a b i l i t i e s .

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Correlation between noise-after-write and magnetization dynamics in thin film heads

Liu

Ryan

Xiao-li

et al. 1992

IEEE Trans. Magn.

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Correlation between noise-after-write and magnetization dynamics i n 30-turn electroplated thin film heads has been investigated by utilising two complementary magneto-optic Kerr effect domain imaging systems and a Barkhausen noise tester. It has been found that heads containing spike-like domains near the backgap closure have significantly higher noise-after-write rates than heads with normal closure domain configurations. A longitudinal 180° wall in the direction of flux conduction at the sloped region of the pole tip was observed, however, independent of whether the head had a high or low noise-after-write rate.

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High frequency dynamic imaging of domains in thin film heads

Liu

Schultz²,

Kryder

1990

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F.H. Liu

Kerr effect imaging of dynamic processes in magnetic recording heads

High frequency dynamic imaging of domains in thin film heads

Inductance fluctuation, domain instability and popcorn noise in thin film heads

Correlation between noise-after-write and magnetization dynamics in thin film heads

High frequency dynamic imaging of domains in thin film heads

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