Magnetic randomaccess memory (MRAM) devices have been widely studied since the
1960s. During this time, the size of spintronic devices has continued to decrease. Conse quently, there is now an urgent need for new lowdimensional magnetic materials to mimic
the traditional structures of spintronics at the nanoscale. We also require new effective
mechanisms to conduct the main functions of memory devices, which are: reading, writ ing, and storing data.
To date, most research efforts have focused on MRAM devices based on magnetic tun nel junction (MTJ), such as a conventional fielddriven MRAM and spintransfer torque
(STT)MRAM devices. Consequently, many efforts are currently focusing on new alterna tives using different techniques, such as spinorbit torque (SOT) and magnetic skyrmions (a
skyrmion is the smallest potential disruption to a uniform magnet required to obtain more
effective memory devices). The most promising memory devices are SOTMRAMs and
skyrmionbased memories.
This study investigates the magnetic properties of 1Tphase vanadium dichalcogenide (VXY)
Janus monolayers, where X, Y= S, Se, or Te (i.e., monolayers that exhibit inversion symme try breaking due to the presence of different chalcogen elements). This study is developed
along four directions: (I) the nature of the magnetism and the SOT effect of Janus mono layers; (II) the Dzyaloshinskii Moriya interaction (DMI); (III) investigation of stability en hancement by adopting practical procedures for industry; and (IV) study of the effect of a
hexagonal boron nitride (hBN) monolayer as an insulator on the magnetism of the VXY
monolayer. This study provides a clear perspective for the next generation of memory de vices, such as SOTMRAMs based on transition metal dichalcogenide monolayers.
Date of Award | Sep 2021 |
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Original language | English (US) |
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Awarding Institution | - Computer, Electrical and Mathematical Sciences and Engineering
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Supervisor | Udo Schwingenschloegl (Supervisor) |
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- Spintronics
- Spin-orbit torque
- SOT-MRAMs
- Janus
- TMD materials
- heterostructure