论文信息 - Chopping techniques for low-frequency nanotesla spin-dependent tunneling field sensors

Chopping techniques for low-frequency nanotesla spin-dependent tunneling field sensors

Three chopping techniques to address 1/f noise in spin-dependent tunneling magnetoresistive sensors are investigated. These include modulation of the sensitivity using orthogonal fields, modulation, and second-harmonic generation using the nonlinear response of the magnetoresistive element and modulation of the flux concentrator permeability. Of these, only the second technique resulted in a slight reduction in low-frequency noise. In order to achieve significant noise reduction by chopping, domain noise will have to be reduced.

A. V. Pohm | Albrecht Jander | Cathy Nordman | John Anderson

[1] I. Bloom,et al. Noise properties of ferromagnetic tunnel junctions , 1998 .

[2] Pavel Ripka,et al. AC-driven AMR and GMR magnetoresistors , 1999 .

[3] W J Gallagher,et al. Low-frequency magnetic noise in micron-scale magnetic tunnel junctions. , 2000, Physical review letters.

[4] N. Wakatsuki,et al. AC Bias type magnetoresistive sensor , 1990, International Conference on Magnetics.

[5] Edmund R. Nowak,et al. Electron tunneling and noise studies in ferromagnetic junctions , 2000 .

[6] B. Kaplan,et al. Suppression of Barkhausen noise in magnetoresistive sensors employing AC bias , 1995 .

[7] D. I Flynn. Demodulation of a magnetoresistive sensor signal to achieve a low-cost, stable and high-resolution v , 1995 .