2018
DOI: 10.1103/physrevapplied.10.054056
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Comparison of Sensitivity and Low-Frequency Noise Contributions in Giant-Magnetoresistive and Tunneling-Magnetoresistive Spin-Valve Sensors with a Vortex-State Free Layer

Abstract: Magnetoresistive spin valve sensors based on the giant-(GMR) and tunnelling-(TMR) magnetoresisitve effect with a flux-closed vortex state free layer design are compared by means of sensitivity and low frequency noise. The vortex state free layer enables high saturation fields with negligible hysteresis, making it attractive for applications with a high dynamic range. The measured GMR devices comprise lower pink noise and better linearity in resistance but are less sensitive to external magnetic fields than TMR… Show more

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Cited by 22 publications
(26 citation statements)
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“…For this purpose, a connection of ten elements in series was assumed. Comparing this approximation with the results of [ 11 ] shows that S v increases by a factor 4. The square root of the S v 2 integration yields to a noise amplitude of u ≈ 104 nV, compared to an electric potential for the no label setup of u ≈ 27.4 mV, and a response just below 1 mV, which indicates an acceptable relation between the noise and the response of the simulated sensor structure.…”
Section: Discussionsupporting
confidence: 64%
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“…For this purpose, a connection of ten elements in series was assumed. Comparing this approximation with the results of [ 11 ] shows that S v increases by a factor 4. The square root of the S v 2 integration yields to a noise amplitude of u ≈ 104 nV, compared to an electric potential for the no label setup of u ≈ 27.4 mV, and a response just below 1 mV, which indicates an acceptable relation between the noise and the response of the simulated sensor structure.…”
Section: Discussionsupporting
confidence: 64%
“…As reported in [ 10 ], the phase noise vanishes by the use of magnetic vortex structures. Therefore, only the thermal noise and the 1/f-noise contribute to the total noise of the GMR element [ 11 ]. Since the detection of a biomolecule is an application in the low frequency range, the influence of the 1/f noise becomes dominant, and the noise increases for small sensors [ 50 ].…”
Section: Discussionmentioning
confidence: 99%
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“…To push the detectivity further into pT range, thus becoming competitive with magnetic tunnel junctions 26 or hybrid magnetic-MEMS devices 27 , different solutions were introduced. Large area arrays 28 , 29 and their combination with magnetic flux guides 26 have successfully delivered improved performances, at the expense of lower spatial resolution. Given the maturity of stack engineering for spin-valve multilayered thin films 24 , 30 , new design strategies are necessary to meet the demands in detection limits.…”
Section: Introductionmentioning
confidence: 99%