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Non-linear mode interaction between spin torque driven and damped modes in spin torque nano-oscillators.
- Source :
- Applied Physics Letters; 5/11/2015, Vol. 106 Issue 19, p1-5, 5p, 3 Graphs
- Publication Year :
- 2015
-
Abstract
- The influence of dynamic coupling in between magnetic layers of a standard spin torque nanooscillator composed of a synthetic antiferromagnet (SyF) as a polarizer and an in-plane magnetized free layer has been investigated. Experiments on spin valve nanopillars reveal non-continuous features such as kinks in the frequency field dependence that cannot be explained without such interactions. Comparison of experiments to numerical macrospin simulations shows that this is due to nonlinear interaction between the spin torque (STT) driven mode and a damped mode that is mediated via the third harmonics of the STT mode. It only occurs at large applied currents and thus at large excitation amplitudes of the STT mode. Under these conditions, a hybridized mode characterized by a strong reduction of the linewidth appears. The reduced linewidth can be explained by a reduction of the non-linear contribution to the linewidth via an enhanced effective damping. Interestingly, the effect depends also on the exchange interaction within the SyF. An enhancement of the current range of reduced linewidth by a factor of two and a reduction of the minimum linewidth by a factor of two are predicted from simulation when the exchange interaction strength is reduced by 30%. These results open directions to optimize the design and microwave performances of spin torque nano-oscillators taking advantage of the coupling mechanisms. [ABSTRACT FROM AUTHOR]
- Subjects :
- NONLINEAR oscillators
TORQUE
MAGNETIZATION
ANTIFERROMAGNETISM
COMPUTER simulation
Subjects
Details
- Language :
- English
- ISSN :
- 00036951
- Volume :
- 106
- Issue :
- 19
- Database :
- Complementary Index
- Journal :
- Applied Physics Letters
- Publication Type :
- Academic Journal
- Accession number :
- 102749845
- Full Text :
- https://doi.org/10.1063/1.4921097