Your search keyword '"Miron, Ioan-Mihai"' showing total 2 results

1. Ultrafast magnetization switching by spin-orbit torques.

Author

Garello, Kevin, Avci, Can Onur, Miron, Ioan Mihai, Baumgartner, Manuel, Ghosh, Abhijit, Auffret, Stéphane, Boulle, Olivier, Gaudin, Gilles, and Gambardella, Pietro

Subjects

SPIN-orbit interactions, PICOSECOND pulses, MAGNETIZATION, ALUMINUM oxide, PLATINUM

Abstract

Spin-orbit torques induced by spin Hall and interfacial effects in heavy metal/ferromagnetic bilayers allow for a switching geometry based on in-plane current injection. Using this geometry, we demonstrate deterministic magnetization reversal by current pulses ranging from 180 ps to ms in Pt/Co/AlOx dots with lateral dimensions of 90 nm. We characterize the switching probability and critical current Ic as a function of pulse length, amplitude, and external field. Our data evidence two distinct regimes: a short-time intrinsic regime, where Ic scales linearly with the inverse of the pulse length, and a long-time thermally assisted regime, where Ic varies weakly. Both regimes are consistent with magnetization reversal proceeding by nucleation and fast propagation of domains. We find that Ic is a factor 3-4 smaller compared to a single domain model and that the incubation time is negligibly small, which is a hallmark feature of spin-orbit torques. [ABSTRACT FROM AUTHOR]

Published

2014

2. Spin-orbit torque magnetization switching of a three-terminal perpendicular magnetic tunnel junction.

Author

Cubukcu, Murat, Boulle, Olivier, Drouard, Marc, Garello, Kevin, Avci, Can Onur, Miron, Ioan Mihai, Langer, Juergen, Ocker, Berthold, Gambardella, Pietro, and Gaudin, Gilles

Subjects

MAGNETIC tunnelling, SPIN-orbit interactions, MAGNETORESISTANCE, CURRENT density (Electromagnetism), MAGNETIC fields

Abstract

We report on the current-induced magnetization switching of a three-terminal perpendicular magnetic tunnel junction by spin-orbit torque and its read-out using the tunnelling magnetoresistance (TMR) effect. The device is composed of a perpendicular Ta/FeCoB/MgO/FeCoB stack on top of a Ta current line. The magnetization of the bottom FeCoB layer can be switched reproducibly by the injection of current pulses with density 5×1011 A/m2 in the Ta layer in the presence of an in-plane bias magnetic field, leading to the full-scale change of the TMR signal. Our work demonstrates the proof of concept of a perpendicular spin-orbit torque magnetic memory cell. [ABSTRACT FROM AUTHOR]

Published

2014