Sample shape dependence of magnetic noise

Abstract

Zero-field magnetic noise, characterised by the magnetic autocorrelation function Ss(t), has been observed, perhaps surprisingly, to depend on sample shape s. The reasons for this are identified and general expressions are derived that relate the autocorrelation functions for systems of different shape to an underlying `intrinsic' form. Assuming the flcutuatiopn-dissipation theorem, it is shown that, for any noise that relaxes monotonically, the effect of sample shape is to reduce both the noise amplitude and mean relaxation time by a factor of 1+Ni, where N is the demagnetizing factor and i the intrinsic susceptibility. In frequency space, where Ss(t) Fourier transforms into the power spectrum Ss(ω), the above two factors combine to suppress the zero frequency amplitude of Ss(ω) by (1+Ni)2, while at high frequency, sample shape dependence becomes negligible. These results suggest simple and robust experimental tests of the fluctuation--dissipation theorem in magnetic systems that may be useful in distinguishing bulk from surface effects.