Stabilization of phase noise in spin torque nano oscillators by a phase locked loop
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The main limitation in order to exploit spin torque nano-oscillators (STNOs) in various potential applications is their large phase noise. In this work, we demonstrate its efficient reduction by a highly reconfigurable, compact, specifically on-chip designed PLL based on custom integrated circuits. First, we thoroughly study the parameter space of the PLL+STNO system experimentally. Second, we present a theory which describes the locking of a STNO to an external signal in a general sense. In our developed theory, we do not restrict ourselves to the case of a perfect phase locking but also consider phase slips and the corresponding low offset frequency $1/f^2$ noise, so far the main drawback in such systems. Combining experiment and theory allows us to reveal complex parameter dependences of the system's phase noise. The results provide an important step for the optimization of noise properties and thus leverage the exploitation of STNOs in prospective real applications.
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Deterministic control of the probabilistic phase dynamics in injection-locked spin-torque nano-oscillators
Weak RF perturbation in second-harmonic injection-locked vortex STNOs enables continuous deterministic control of occupation probabilities between two π-separated phase attractors via tunable jump rates.
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