Seminar : Atomic layer deposited HfO2-based magnetic tunnel junctions

Event Details

Dear colleagues,
On September, 12, we have the pleasure to welcome in Spintec Andy Thomas from the Leibniz-Institute for Solid State and Materials Research in Dresden. At 14H, we will give a seminar on “Atomic layer deposited HfO2-based magnetic tunnel junctions”.

Magnetic tunnel junctions (MTJs) consist of two ferromagnetic electrodes separated by a thin insulating tunnel barrier. In these devices, the tunnel magnetoresistance (TMR) effect can be observed, i.e. different electrical resistance values of the tunnelling current for the parallel and antiparallel alignment of the magnetizations of the two electrodes [1]. Ever since this effect was observed at room temperature in 1995, it was used in many spinelectronic devices such as read heads in hard disk drives. In most cases, the required layer stacks are prepared by sputter deposition and subsequent optical and electron-beam lithography to define the tunnel junctions. However, a combination of atomic layer deposition (ALD) and sputtering would lead to new options for the preparation of MTJs. In particular, with respect to thin film quality and large-scale production, which is required for industrial applications. Here, we combined sputter deposition of the ferromagnetic Co-Fe-B electrodes and ALD preparation of the HfO2 tunnel barrier [2]. The barrier was prepared using tetrakis (dimethylamido) hafnium and water as precursors. Prior to and after the deposition, the sample was stored for 6 h under a constant argon-hydrogen flow (200°C) to allow the removal of any oxidized surface layer at the CoFeB/HfO2 interface that may have formed. Then, we investigated the TMR ratio, the temperature- and bias voltage dependence and compared the junction properties with sputtered magnesia and alumina based MTJs. In addition, we studied the structural properties via high-resolution transmission electron images and observed a polycrystalline/amorphous electrode barrier system. Finally, the barrier parameters are discussed within the framework a trapezoidal tunnel barrier and the temperature and bias voltage dependence in the context of magnon and phonon excitations [3].

[1] J. Moodera et al., Phys. Rev. Lett. 74 (1995) 3273.
[2] S. Fabretti et al., Appl. Phys. Lett. 105 (2014) 132405.
[3] W. Brinkman et al., J. Appl. Phys. 41 (1970) 1915.

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