Enhancement in the field sensitivity of magnetoelectric laminate heterostructures

Abstract: ). Das, J.; Gao, J.; Xing, Z.; et al., "Enhancement in the field sensitivity of magnetoelectric laminate heterostructures," Appl. Phys. Lett. 95, 092501 (2009); http:// dx

“…3,4 To date, ME laminated composites of magnetostrictive Metglas foils and piezoelectric Pb(Zr,Ti)O 3 or PZT have been widely investigated in various operational modes and optimized for use in magnetic field detection applications. [5][6][7] Highly sensitive, room temperature, passive magnetic field sensors have been developed based on ME laminates. Such magnetic sensors have been shown to have noise floors on the order of pT/HHz for Metglas/PZT foil laminates.…”

“…The electrode pattern allowed for a symmetrical polling of the piezoelectric fibers in a back-to-back manner along their length axes. 5 Three layers of Metglas foils cut into dimensions of 8 cm  1 cm  22 lm were then attached to the upper and lower surfaces of the Kapton V R electrodes using the same epoxy. Figure 1 shows the ME voltage (a ME ) and charge (a me ) coefficients of the Metglas/PZT-fiber sensor as a function of DC magnetic field H dc at room temperature.…”

Thermal stability of magnetoelectric sensors

“…3,4 To date, ME laminated composites of magnetostrictive Metglas foils and piezoelectric Pb(Zr,Ti)O 3 or PZT have been widely investigated in various operational modes and optimized for use in magnetic field detection applications. [5][6][7] Highly sensitive, room temperature, passive magnetic field sensors have been developed based on ME laminates. Such magnetic sensors have been shown to have noise floors on the order of pT/HHz for Metglas/PZT foil laminates.…”

“…The electrode pattern allowed for a symmetrical polling of the piezoelectric fibers in a back-to-back manner along their length axes. 5 Three layers of Metglas foils cut into dimensions of 8 cm  1 cm  22 lm were then attached to the upper and lower surfaces of the Kapton V R electrodes using the same epoxy. Figure 1 shows the ME voltage (a ME ) and charge (a me ) coefficients of the Metglas/PZT-fiber sensor as a function of DC magnetic field H dc at room temperature.…”

Thermal stability of magnetoelectric sensors

“…The calibration technique for such measurements has been previously detailed in Ref. 4. Part ͑b͒ shows the noise level and sensitivity results, as indicated.…”

“…Such ME structures contain magnetic and electric materials that are in close contact with each other. It has been shown that coupling between the magnetic and electric phases can offer control of the magnetic/electric responses under electric/magnetic field, 3,4 for example, through stress tuning. High ME coupling between constituent magnetostrictive and and piezoelectric phases in the stress tuned structures allows the possibility of achieving both types of cross-tuning: control of magnetism via an electric field, and control of electric polarization through the application of a magnetic field.…”

“…For all the structures, the PZT and metglas layers along with the ID electrodes were bonded together with epoxy resin following the similar preparation process as discussed in Ref. 4.…”

Control of magnetic and electric responses with electric and magnetic fields in magnetoelectric heterostructures

Multiferroic Materials