The magneto-ionic modulation of the Dzyaloshinskii-Moriya interaction (DMI) and the perpendicular magnetic anisotropy (PMA), in W/CoFeB/HfO2 stacks annealed at different temperatures and for varying annealing times, are presented in this work. A large modulation of PMA and DMI is observed in the systems annealed at 390 and 350 degrees C, whereas no response to voltage is observed in the as-grown samples. A strong DMI is only observed in the samples annealed at 390 degrees C for 1 h, while PMA is present for all annealing times at temperatures of 390 and 350 degrees C. Magnetic properties including domain wall velocity improve drastically with increasing the annealing temperature and time, while the magneto-ionic reversibility is increasingly compromised. The changes in PMA and DMI induced by the gate voltages in the samples annealed at 390 degrees C are permanent, while partial reversibility is only observed for the samples annealed at 350 degrees C for short times. This dependence of reversibility on post-grown annealing has been associated to the influence of crystallization on ion mobility. These results show that a compromise between the enhancement of the magnetic properties and the magneto-ionic performance could be needed in systems requiring annealing to develop PMA and DMI.

Magneto-Ionics in Annealed W/CoFeB/HfO2 Thin Films / Pachat, R; Ourdani, D; Syskaki, Ma; Lamperti, A; Roy, S; Chen, S; Di Pietro, A; Largeau, L; Juge, R; Massouras, M; Balan, C; van der Jagt, Jw; Agnus, G; Roussigne, Y; Gabor, M; Cherif, Sm; Durin, G; Ono, S; Langer, J; Querlioz, D; Ravelosona, D; Belmeguenai, M; Diez, Lh. - In: ADVANCED MATERIALS INTERFACES. - ISSN 2196-7350. - 9:36(2022), p. 2200690. [10.1002/admi.202200690]

Magneto-Ionics in Annealed W/CoFeB/HfO2 Thin Films

Di Pietro, A;Durin, G;
2022

Abstract

The magneto-ionic modulation of the Dzyaloshinskii-Moriya interaction (DMI) and the perpendicular magnetic anisotropy (PMA), in W/CoFeB/HfO2 stacks annealed at different temperatures and for varying annealing times, are presented in this work. A large modulation of PMA and DMI is observed in the systems annealed at 390 and 350 degrees C, whereas no response to voltage is observed in the as-grown samples. A strong DMI is only observed in the samples annealed at 390 degrees C for 1 h, while PMA is present for all annealing times at temperatures of 390 and 350 degrees C. Magnetic properties including domain wall velocity improve drastically with increasing the annealing temperature and time, while the magneto-ionic reversibility is increasingly compromised. The changes in PMA and DMI induced by the gate voltages in the samples annealed at 390 degrees C are permanent, while partial reversibility is only observed for the samples annealed at 350 degrees C for short times. This dependence of reversibility on post-grown annealing has been associated to the influence of crystallization on ion mobility. These results show that a compromise between the enhancement of the magnetic properties and the magneto-ionic performance could be needed in systems requiring annealing to develop PMA and DMI.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11696/76190
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