Sensors (Jan 2019)

Microstructure Design for Fast Lifetime Measurements of Magnetic Tunneling Junctions

  • Andrés Conca Parra,
  • Frederick Casper,
  • Johannes Paul,
  • Ronald Lehndorff,
  • Christian Haupt,
  • Gerhard Jakob,
  • Mathias Kläui,
  • Burkard Hillebrands

DOI
https://doi.org/10.3390/s19030583
Journal volume & issue
Vol. 19, no. 3
p. 583

Abstract

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The estimation of the reliability of magnetic field sensors against failure is a critical point concerning their application for industrial purposes. Due to the physical stochastic nature of the failure events, this can only be done by means of a statistical approach which is extremely time consuming and prevents a continuous observation of the production. Here, we present a novel microstructure design for a parallel measurement of the lifetime characteristics of a sensor population. By making use of two alternative designs and the Weibull statistical distribution function, we are able to measure the lifetime characteristics of a CoFeB/MgO/CoFeB tunneling junction population. The main parameters governing the time evolution of the failure rate are estimated and discussed and the suitability of the microstructure for highly reliable sensor application is proven.

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