Device Modeling of MgO-Barrier Tunneling Magnetoresistors for Hybrid Spintronic-CMOS

Device Modeling of MgO-Barrier Tunneling Magnetoresistors for Hybrid Spintronic-CMOS

Spintronic sensors, which are based on the tunneling-magnetoresistive (TMR) effect, have been utilized in detecting low-magnetic fields. However, still no computer-based model of these devices is available to integrated circuit designer to implement them in a hybrid spintronic-CMOS system. We develo...

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Veröffentlicht in:IEEE electron device letters 2018-11, Vol.39 (11), p.1784-1787
Hauptverfasser: Zuo, Siming, Nazarpour, Kianoush, Heidari, Hadi
Format: Artikel
Sprache:eng
Schlagworte:
Circuit design
CMOS
Computer simulation
COMSOL Multiphysics
Finite element analysis
Finite element method
Hybrid systems
Integrated circuit modeling
Integrated circuits
Magnesium oxide
Magnetic sensors
Magnetic tunneling
Magnetoresistivity
Power supplies
Semiconductor device modeling
spintronics
State of the art
Tunneling magnetoresistance
tunneling magnetoresistors
Verilog-A
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Zusammenfassung:Spintronic sensors, which are based on the tunneling-magnetoresistive (TMR) effect, have been utilized in detecting low-magnetic fields. However, still no computer-based model of these devices is available to integrated circuit designer to implement them in a hybrid spintronic-CMOS system. We developed a finite-element method (FEM)-based model of a MgO-barrier TMR device in COMSOL Multiphysics . The parameters of this model were extracted from the state-of-the-art fabrication and experimental data. Results were compared with respect to the model geometry and the used material. The proposed TMR sensor model offers a linear response with a high TMR ratio of 233% at 10-mV power supply. The model was exported to Cadence Spectre to create a compact model using Verilog-A language. The developed sensor model was simulated with its analog front end in the same environment. This model provided a reliable benchmark for modeling of the future hybrid spintronic-CMOS developments.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2018.2870731