Electronic control of magnonic and spintronic devices
C. Tannous, J. Gieraltowski
TL;DR
This paper reviews methods to replace magnetic field control with electronic control in nanometric magnonic and spintronic devices, focusing on voltage and current control for improved efficiency and reduced stray fields.
Contribution
It provides a comparative analysis of electronic control techniques, highlighting their advantages over magnetic field control in nanoscale spintronic applications.
Findings
Voltage control offers lower energy consumption.
Electronic control reduces stray magnetic fields.
Current control can be more effective in certain devices.
Abstract
Nanometric magnonic and spintronic devices need magnetic field control in addition to conventional electronic control. In this work we review ways to replace magnetic field control by an electronic one in order to circumvent appearance of stray magnetic fields or the difficulty of creating large magnetic fields over nanometric distances. Voltage control is compared to current control and corresponding devices are compared from their energetic efficiency point of view.
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