Alexandru Atitoaie scite author profile

For monolithic heterogeneous integration, fast yet low-power processing and storage, and high integration density, the objective of the ED GREAT project is to co-integrate multiple digital and analog functions together within CMOS by adapting the Magnetic Tunneling Junctions (MTJ s) into a single baseline technology enabling logic, memory, and analog functions, particularly for Internet of Things (loT) platforms. This will lead to a unique STT-MTJ cell technology called Multifunctional Standardized Stack (MSS). This paper presents the progress in the project from the technology, compact modeling, process design kit, standard cells, as well as memory and system level design evaluation and exploration. The proposed technology and toolsets are giant leaps towards heterogeneous integrated technology and architectures for loT.

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Macrospin analysis of RF excitations within fully perpendicular magnetic tunnel junctions with second order easy-axis magnetic anisotropy contribution

Atitoaie

Firastrau

Buda-Prejbeanu

et al. 2018

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The conditions of field and voltage for inducing steady state excitations in fully perpendicular magnetic tunnel junctions (pMTJs), adapted for memory applications, were numerically investigated by the resolution of the Landau-Lifshitz Gilbert equation in the macrospin approach. Both damping-like and the field-like spin transfer torque terms were taken into account in the simulations, as well as the contribution of the second order uniaxial anisotropy term (K 2 ), which has been recently revealed in MgO-based pMTJs. An inplane applied magnetic field balances the out of plane symmetry of the pMTJ and allows the signal detection. Using this model, we assessed the states of the free layer magnetization as a function of strength of K 2 and polar θ H angle of the applied field (varied from 90 0 to 60 0 ). There are two stable states, with the magnetization in-plane or out of plane of the layer, and two dynamic states with self-sustained oscillations, called in-plane precession state (IPP) or out of plane precession state (OPP). The IPP mode, with oscillation frequencies up to 7 GHz, appears only for positive voltages if θ H =90 0 . However, it shows a more complex distribution when the field is slightly tilted out of plane. The OPP mode is excited only if K 2 is considered and reaches a maximum oscillation frequency of 15 GHz. Large areas of dynamic states with high frequencies are obtained for strong values of the field-like torque and K 2 , when applying a slightly tilted external field toward the out of plane direction. The non-zero temperature does not modify the phase diagrams, but reduces drastically the power spectral density peak amplitudes.) the ground state of the magnetic system evolves from the easy-axis state, parallel to the normal of the layers, to a new state called easy-cone state.In the easy-cone regime, the magnetization is tilted away from the out of plane direction, the system energy remaining invariant around a cone with a certain opening angle c  (see Fig. 1(b) that shows the out of plane component of the FL magnetization mz at equilibrium as a function of K2 in zero

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Thermal hysteresis kinetic effects of spin crossover nanoparticulated systems studied by FORC diagram method on an Ising-like model

Atitoaie

Stoleriu

Tanasa

et al. 2016

Physica B: Condensed Matter

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