Flexural deformation in a compositionally stepped ferrite and magnetoelectric effects in a composite with piezoelectrics

Mandal, S. K.; Sreenivasulu, G.; Петров, В. М.; Srinivasan, G.

doi:10.1063/1.3428774

Cited by 108 publications

(68 citation statements)

References 12 publications

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“…High ␣ E of trilayer and zero ␣ ER was related to structural symmetry which reduces in-plane strain and maximizes the out-of-plane strain. 8 The peak position in this curve corresponds with the maximum in gradient of the magnetostriction versus magnetic dc bias curve. Please note the electrical connection in Fig.…”

Section: Introductionmentioning

confidence: 99%

“…Most of the reported ME composites in literature require magnetic dc bias to invoke piezomagnetic response and only recently, Mandal et al demonstrated selfbiased laminate composites where ME response at zero field was correlated with presence of flexural deformation in a compositionally graded structure. [8][9][10] However, this method of generating self-bias is dependent upon the composition grading and requires special synthesis process. Our research has been focused on finding a methodology where we can achieve self-biasing by just changing the electrical connections with regular laminate composites.…”

Section: Introductionmentioning

confidence: 99%

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Self-biased magnetoelectric response in three-phase laminates

Yang¹,

Park²,

Cho³

et al. 2010

Journal of Applied Physics

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Articles you may be interested in Self-biased large magnetoelectric coupling in co-sintered Bi0.5Na0.5TiO3 based piezoelectric and CoFe2O4 based magnetostrictive bilayered composite J. Appl. Phys. 116, 244101 (2014) This study reports the experimental observation and analysis of self-biased magnetoelectric ͑ME͒ effect in three-phase laminates. The 2-2 L-T mode laminates were fabricated by attaching nickel ͑Ni͒ plates and ME particulate composite plates having 3-0 connectivity with 0.948Na 0.5 K 0.5 NbO 3 -0.052LiSbO 3 ͑NKNLS͒ matrix and Ni 0.8 Zn 0.2 Fe 2 O 4 ͑NZF͒ dispersant. The presence of two types of ferromagnetic materials, Ni and NZF, results in built-in magnetic bias due to difference in their magnetic susceptibilities and coercivity. This built-in bias ͑H bias ͒ provides finite ME effect at zero applied magnetic dc field. The ME response of bending mode trilayer laminate NKNLS-NZF/Ni/NKNLS-NZF in off-resonance and on-resonance conditions was shown to be mathematical combination of the trilayers with configuration NKNLS-NZF/Ni/NKNLS-NZF and NKNLS/Ni/NKNLS representing contributions from magnetic interaction and bending strain.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Self-biased magnetoelectric response in three-phase laminates

Yang¹,

Park²,

Cho³

et al. 2010

Journal of Applied Physics

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“…The Ni provided a field to bias the ME sensor. 10,11 The measuring system consisted of a set of Helmholtz coils, powered by an Agilent 33220 A signal generator that was used to apply a sinusoidal, time varying field H s along the longitudinal axis of the sensor. In these experiments, we did not employ any flux concentrators.…”

Section: Methodsmentioning

confidence: 99%

Enhancing the sensitivity of magnetoelectric sensors by increasing the operating frequency

Petrie

Viehland

Gray

et al. 2011

Journal of Applied Physics

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Articles you may be interested inEnhanced sensitivity in magnetoelectric current-sensing devices with frequency up-conversion mechanism by modulating the magnetostrictive strain J. Appl. Phys. 115, 17E505 (2014) We present a field modulation technique that increases the operating frequency of magnetoelectric (ME) sensors so that it can match the mechanical resonance frequency of the sensor. This not only improves the sensitivity but also reduces the effect of 1/f noise that is inherent at low frequencies. The technique, which is shown to apply to both symmetric and asymmetric ME sensors, relies on the strong, nonlinear magnetic field dependence of the magnetostriction. The combination of a lower 1/f noise and enhanced response at resonance has increased the signal to noise ratio of a symmetric sensor by two orders of magnitude. The detection limit of this sensor was lowered from 90 to 7 pT/ ffiffiffiffiffi ffi Hz p at 1 Hz in a magnetically unshielded environment.

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“…Note that if the laminate had perfect structural and compositional symmetry, the voltage generation would be completely zero under longitudinal magnetic field due to the 180 voltage phase difference between top and bottom KNNs. 8 Figures 2(b) and 2(c) illustrate the DME and CME response of the laminate in the same frequency range under applied H bias ¼ 0 and 100 Oe. Under zero H bias condition, both a DME and a CME values exhibited maximum enhancement at 21 kHz and much weaker response at 47 kHz.…”

Section: Fig 2 (Color Online) (A)mentioning

confidence: 99%

“…However, recent studies have revealed that by employing heterogeneous ferromagnetic structure, a large a DME value can be obtained in the absence of H bias , so called self-biased DME effect. [8][9][10] The selfbiased DME effect was observed when the laminates were operated in bending mode and consisted of dissimilar or graded magnetic materials that resulted in built-in magnetic bias. The discovery of self-biased DME effect is encouraging for applications such as self-biased magnetic field sensor.…”

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confidence: 99%

Self-biased converse magnetoelectric effect

Yang

Cho

Park

et al. 2011

Applied Physics Letters

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In this letter, we investigate the direct magnetoelectric (DME) and converse magnetoelectric (CME) effects in three-phase metal–ceramic laminate composites. Longitudinally poled and transversely magnetized (L-T) laminate was fabricated by bonding nickel plates between the two particulate magnetoelectric (ME) composite layers of composition 0.8 (0.948 K0.5Na0.5NbO3 – 0.052 LiSbO3) – 0.2 (Ni0.8Zn0.2Fe2O4) (KNNLS-NZF). Under off-resonance condition, the laminates exhibited hysteretic DME and CME responses as a function of applied bias field (Hbias). Self-biased effect characterized by non-zero ME response at zero Hbias was observed. The self-biased DME and CME properties were found to be enhanced under resonance conditions. Without external Hbias, magnetic induction switching was possible by applying AC voltage. These results provide the possibility of using self-biased CME effect in electrically controlled memory devices and magnetic flux control devices.

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Flexural deformation in a compositionally stepped ferrite and magnetoelectric effects in a composite with piezoelectrics

Cited by 108 publications

References 12 publications

Self-biased magnetoelectric response in three-phase laminates

Self-biased magnetoelectric response in three-phase laminates

Enhancing the sensitivity of magnetoelectric sensors by increasing the operating frequency

Self-biased converse magnetoelectric effect

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