Add to ORKGSpintronic elements based on spin transfer torque have emerged with potential for on-chip memory, but they suffer from large energy dissipation due to the large current densities required. In contrast, an electric-field-driven magneto-electric storage element can operate with capacitive displacement charge and potentially reach 1-10 µJ cm-2 switching operation. Here, magneto-electric switching of a magnetoresistive element is shown, operating at or below 200 mV, with a pathway to get down to 100 mV. A combination of phase detuning is utilized via isovalent La substitution and thickness scaling in multiferroic BiFeO3 to scale the switching energy density to ≈10 µJ cm-2 . This work provides a template to achieve attojoule-class nonvolatile me...
Magnetoelectric coupling at room temperature in multiferroic materials, such as BiFeO3, is one of th...
Utilization of magnetoelectric effects in multiferroic materials hold great potential to fabricate n...
Controlling magnetic states by a small current is essential for the next-generation of energy-effici...
Robust multi-level spin memory with the ability to write information electrically is a long-sought c...
Robust multi-level spin memory with the ability to write information electrically is a long-sought c...
Electric-field control of magnetism is significant for the next generation of large-capacity and low...
International audienceSelective control of the switching path in multiferroics such as BiFeO3 (BFO) ...
Understanding switching mechanisms in multiferroics such as BiFeO3 (BFO) is an important challenge t...
We present an approach to control resistive switching in metal-ferroelectric contacts using a radial...
Electrically driven magnetic switching (EDMS) is highly demanded for next-generation advanced memori...
This dissertation presents a study of a heterostructure composed of room temperature magnetoelectric...
International audienceThe development of reliable and highly energy efficient multiferroic nanosyste...
Ferroelectric and ferromagnetic materials exhibit long-range order of atomic-scale electric or magne...
Electrical control of magnetism is highly desirable for energy-efficient spintronic applications. Re...
Controlling magnetic states by a small current is essential for the next-generation of energy-effici...
Magnetoelectric coupling at room temperature in multiferroic materials, such as BiFeO3, is one of th...
Utilization of magnetoelectric effects in multiferroic materials hold great potential to fabricate n...
Controlling magnetic states by a small current is essential for the next-generation of energy-effici...
Robust multi-level spin memory with the ability to write information electrically is a long-sought c...
Robust multi-level spin memory with the ability to write information electrically is a long-sought c...
Electric-field control of magnetism is significant for the next generation of large-capacity and low...
International audienceSelective control of the switching path in multiferroics such as BiFeO3 (BFO) ...
Understanding switching mechanisms in multiferroics such as BiFeO3 (BFO) is an important challenge t...
We present an approach to control resistive switching in metal-ferroelectric contacts using a radial...
Electrically driven magnetic switching (EDMS) is highly demanded for next-generation advanced memori...
This dissertation presents a study of a heterostructure composed of room temperature magnetoelectric...
International audienceThe development of reliable and highly energy efficient multiferroic nanosyste...
Ferroelectric and ferromagnetic materials exhibit long-range order of atomic-scale electric or magne...
Electrical control of magnetism is highly desirable for energy-efficient spintronic applications. Re...
Controlling magnetic states by a small current is essential for the next-generation of energy-effici...
Magnetoelectric coupling at room temperature in multiferroic materials, such as BiFeO3, is one of th...
Utilization of magnetoelectric effects in multiferroic materials hold great potential to fabricate n...
Controlling magnetic states by a small current is essential for the next-generation of energy-effici...