S. Omid Sayedaghaee’s Research and Scientific Activities

Deriving analytical models to understand the striking and novel dynamics of magnetoelectric effects in multiferroics and further confirming it with atomistic simulations.
Published in Nature (npj Computational Materials)

Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics

Predicteding the existence of electroacoustic magnon quasiparticles in monodomain multiferroics which will open opportunities to employ the properties of such quasiparticles to enhance the response of functional materials used in actuators, sensors and memory devices.
Published in Physical Review Letters

Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO₃

Demonstrating reversible dual control of ferroelectric phases by applying external stimuli which leads to achieving highly controllable system responses.
Published in Nanoscale (Royal Society of Chemistry)

Giant resistive switching in mixed phase BiFeO₃ via phase population control

Most updated news about the impact of our research on society

“Physicists document method to improve magnetoelectric response”, a Phys.Org article about our work on electroacoustic magnons

omidadmin June 17, 2020

Phys.org has posted an article about our work on electroacoustic magnons and magnetoelectric response of multiferroics.

“University of Arkansas Researchers Leverage Supercomputer to Improve Magnetoelectric Response”: HPC wires article about our work on strain-induced resonances in magnetoelectric response of multiferroics

omidadmin June 16, 2020

HPCwire which is the number one resource of news and information about the fastest computers in the world and the resear

“Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics” in Nature (npj Computational Materials) Homepage

omidadmin May 27, 2020

The research “Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics”

Altmetric ranks the “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO₃” within the top %5

omidadmin February 9, 2020

The research on the dynamical properties of bismuth ferrite which is published in Physical Review Letters is now within

“Promising material could lead to faster, cheaper computer memory”: A Phys.org Article on “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO₃“

omidadmin February 8, 2020

Phys.org website has released a post on the research that we have published in Physical Review Letters on novel dynamica

“New Material Promises to Make Computer Memory More Faster and Affordable”: World Industrial Reporter’s Article about our research on Novel Dynamical Magnetoelectric effects

omidadmin February 7, 2020

World Industrial Reporter’s has published an article entitled “New Material Promises to Make Computer Memory

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IN THE NEWS

“Physicists document method to improve magnetoelectric response”, a Phys.Org article about our work on electroacoustic magnons

“University of Arkansas Researchers Leverage Supercomputer to Improve Magnetoelectric Response”: HPC wires article about our work on strain-induced resonances in magnetoelectric response of multiferroics

“Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics” in Nature (npj Computational Materials) Homepage

Altmetric ranks the “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO₃” within the top %5

“Promising material could lead to faster, cheaper computer memory”: A Phys.org Article on “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO₃“

“New Material Promises to Make Computer Memory More Faster and Affordable”: World Industrial Reporter’s Article about our research on Novel Dynamical Magnetoelectric effects