Modeling of magnetoelectric effect for advanced spintronic applications

Leuven - Master projects/internships
|
Meer dan twee weken geleden

Evaluate the magnetoelectric coupling to magnetic textures for low-power spintronic devices

Spintronics is a novel field of electronics that uses the spin of electrons or the magnetization of thin films instead of charge in memory or logic computation devices. A key issue of spintronics is the energy-efficient control of the magnetization in such devices. Current device concepts are often based on the control of the magnetization by currents, for example via generated magnetic fields or recently discovered effects, such as spin-transfer torque or spin-orbit torque. However, such techniques are typically not very energy-efficient and it would be very desirable to control the magnetization by electric fields instead. In principle, this can be done by the magnetoelectric effect, which couples electric fields to the magnetization. This effect is currently strongly considered to be included in future generations of low-power spintronic devices.

Magnetoelectric effects naturally occur in multiferroic materials but much stronger strain-induced magnetoelectric coupling can be observed in composite materials consisting of piezoelectric and magnetostrictive materials. The application in spintronic devices requires a detailed understanding of the effects of the geometry (e.g. the relative directions of the electric field and the magnetization) as well as thermal fluctuations on the magnetization dynamics. In this thesis, the student will perform micromagnetic simulations to study the magnetoelectric coupling in different geometries and different material systems. The goal of the thesis is to develop efficient strategies to excite, control, and detect magnetization dynamics (including magnetization switching, interaction with magnetic domain walls and spin waves) by the magnetoelectric effect and transfer them to a magnetic waveguide. The work will be in close collaboration with experimentalists working on integration of magnetoelectrics into spintronic devices for beyond CMOS logic.

 

 





Type of project: Internship, Thesis, Combination of internship and thesis

Duration: > 6 Months

Required degree: Master of Science

Required background: Nanoscience & Nanotechnology, Physics

Supervising scientist(s): For further information or for application, please contact: Christoph Adelmann (Christoph.Adelmann@imec.be) and Florin Ciubotaru (Florin.Ciubotaru@imec.be)

Share this on

truetrue

Deze website maakt gebruik van cookies met als enige doel het analyseren van surfgedrag, zonder enige commerciële insteek. Lees er hier meer over. Lees ook ons privacy statement. Sommige inhoud (video's, iframes, formulieren,...) op deze website zal pas zichtbaar zijn na het accepteren van de cookies.

Accepteer cookies