Tunable microwave frequency via heterogeneous tilted polarizer based spin torque nano oscillator.

In the present study, we have theoretically modeled a heterogeneous Tilted Polarizer [TP] based Spin Torque Nano Oscillator [STNO] with two independent variables (β & θ). The magnetization precession dynamics led by Spin Transfer Torque [STT] is numerically studied by solving the Landau-Lifshitz-Gilbert-Slonczewski [LLGS] equation. Here, β & θ are the TP angle and the angle between free layer magnetization and the easy axis of the device respectively. Both β & θ can be varied from 0° to 90°. For every particular β, we varied the θ from 10° to 90°. It is ostensibly visible that in all the tilt angles, the frequency is accessible and highly tunable in the order of GHz. The maximum frequency of the device is obtained at β = 60° & θ = 90°. The obtained frequency is 227 GHz and PSD of 1.719 µW/mA2/GHz with a solid current density of 8 × 1010 A/m2 with a zero applied field. To the best of the author's knowledge, we have reported the maximum frequency emitted by a single STNO of about 227 GHz, which is highly applicable for Extremely-High-Frequency applications. It opens a new door for the clutter breaking innovations in the field of spin based electronics. [ABSTRACT FROM AUTHOR]