AIP Advances (May 2018)

Thermal stability analysis and modelling of advanced perpendicular magnetic tunnel junctions

  • Simon Van Beek,
  • Koen Martens,
  • Philippe Roussel,
  • Yueh Chang Wu,
  • Woojin Kim,
  • Siddharth Rao,
  • Johan Swerts,
  • Davide Crotti,
  • Dimitri Linten,
  • Gouri Sankar Kar,
  • Guido Groeseneken

DOI
https://doi.org/10.1063/1.5007690
Journal volume & issue
Vol. 8, no. 5
pp. 055909 – 055909-6

Abstract

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STT-MRAM is a promising non-volatile memory for high speed applications. The thermal stability factor (Δ = Eb/kT) is a measure for the information retention time, and an accurate determination of the thermal stability is crucial. Recent studies show that a significant error is made using the conventional methods for Δ extraction. We investigate the origin of the low accuracy. To reduce the error down to 5%, 1000 cycles or multiple ramp rates are necessary. Furthermore, the thermal stabilities extracted from current switching and magnetic field switching appear to be uncorrelated and this cannot be explained by a macrospin model. Measurements at different temperatures show that self-heating together with a domain wall model can explain these uncorrelated Δ. Characterizing self-heating properties is therefore crucial to correctly determine the thermal stability.