Tomohiro Taniguchi, Hiroshi Imamura
Published 2012-04-09Version 1
Dependence of the thermally assisted spin torque switching probability on the sweep electric current was investigated theoretically. The analytical expressions of the switching times for $b=1$ and $b=2$ are derived based on the rate equation, where $b$ is the exponent of the current term in the switching rate. The switching current is approximately proportional to the temperature $T$ and the logarithm of the sweep rate $v$ for both $b=1$ and $b=2$ in the experimentally performed ranges of $T$ and $v$. Experiments in very low temperature range are required to determine the exponent $b$.
Comments: accepted to J. Nanosci. Nanotechnol. as a conference proceeding of Recent Trends in Nanomagnetism, Spintronics, and their Applications (RTNSA 2011)
Journal: Journal of Nanoscience and Nanotechnology, 12 (9), 7520 (2012)
Discernable signature of QPT in a bilayer-quantum-well system at the filling fraction ν = 5/2 in the low temperature range (1K-100 K)
Fingerprint of QPT in a bilayer-quantum-well system at the filling fraction ν = 5/2 in the low temperature range (1K-100 K)
Dependence of the Magnetization of an Ensemble of Single-Domain Particles on the Measurement Time within Various Experimental and Computational Methods
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