Yannick Dusch scite author profile

Yannick Dusch

3Publications

173Citation Statements Received

21Citation Statements Given

How they've been cited

215

168

How they cite others

Affiliations

University of Lille, Institute of Electronics, Microelectronics and Nanotechnology, French National Centre for Scientific Research

Publications

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Magnetoelectric memory using orthogonal magnetization states and magnetoelastic switching

Tiercelin

Dusch

Preobrazhensky

et al. 2011

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We present here a concept of a memory cell called MELRAM based on a magnetic element with giant magnetostriction, embedded in a piezoelectric matrix. Two equilibrium orientations of magnetization are defined by combining uniaxial anisotropy together with a magnetic polarization in the hard axis direction. Using the piezoelectric matrix, an anisotropic stress is created onto the magnetic element when applying a voltage across electrodes. Thanks to the inverse magnetostrictive effect, the effective anisotropy of the magnetic element is controlled by the applied voltage and used to switch magnetization from one state to the other. Micromagnetic simulations show the effect of applied stress on magnetization and theoretical feasibility of the device. Retrieval of information can be nondestructively made by giant magnetoresistance reading. Details of the principle, simulations, and performance perspectives are discussed.

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Room temperature magnetoelectric memory cell using stress-mediated magnetoelastic switching in nanostructured multilayers

Tiercelin

Dusch

Klimov

et al. 2011

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We present here the demonstration of magnetoelectric switching of magnetization between two stable positions defined by a combination of anisotropy and magnetic field. A magnetoelastic nanostructured multilayer with the required uni-axial characteristic was deposited onto a commercial piezoelectric actuator. Thanks to the inverse magnetostrictive effect, the effective anisotropy of the magnetic element is controlled by the applied voltage and used to switch magnetization from one state to the other. Both vibrating sample magnetometer and magneto-optical Kerr effect measurements have been performed and demonstrate the magnetoelectric switching.

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Magnetoelectric write and read operations in a stress-mediated multiferroic memory cell

Klimov

Tiercelin

Dusch

et al. 2017

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Magnetic memory cells associated with the stress-mediated magnetoelectric effect promise extremely low bit-writing energies. Most investigations have focused on the process of writing information in memory cells, and very few on readout schemes. The usual assumption is that the readout will be achieved using magnetoresistive structures such as Giant Magneto-Resistive stacks or Magnetic Tunnel Junctions. Since the writing energy is very low in the magnetoelectric systems, the readout energy using magnetoresistive approaches becomes non negligible. Incidentally, the magneto-electric interaction itself contains the potentiality of the readout of the information encoded in the magnetic subsystem. In this letter, the principle of magnetoelectric readout of the information by an electric field in a composite multiferroic heterostructure is considered theoretically and demonstrated experimentally using [N×(TbCo2/FeCo)]/[Pb(Mg1/3Nb2/3)O3](1−x)−[PbTiO3]x stress-mediated ME heterostructures.

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Yannick Dusch

Magnetoelectric memory using orthogonal magnetization states and magnetoelastic switching

Room temperature magnetoelectric memory cell using stress-mediated magnetoelastic switching in nanostructured multilayers

Magnetoelectric write and read operations in a stress-mediated multiferroic memory cell

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