05332nam 2201249z- 450 991056648060332120231214133345.0(CKB)5680000000037574(oapen)https://directory.doabooks.org/handle/20.500.12854/81178(EXLCZ)99568000000003757420202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMagnetoelectric Sensor Systems and ApplicationsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (200 p.)3-0365-3553-5 3-0365-3554-3 In the field of magnetic sensing, a wide variety of different magnetometer and gradiometer sensor types, as well as the corresponding read-out concepts, are available. Well-established sensor concepts such as Hall sensors and magnetoresistive sensors based on giant magnetoresistances (and many more) have been researched for decades. The development of these types of sensors has reached maturity in many aspects (e.g., performance metrics, reliability, and physical understanding), and these types of sensors are established in a large variety of industrial applications. Magnetic sensors based on the magnetoelectric effect are a relatively new type of magnetic sensor. The potential of magnetoelectric sensors has not yet been fully investigated. Especially in biomedical applications, magnetoelectric sensors show several advantages compared to other concepts for their ability, for example, to operate in magnetically unshielded environments and the absence of required cooling or heating systems. In recent years, research has focused on understanding the different aspects influencing the performance of magnetoelectric sensors. At Kiel University, Germany, the Collaborative Research Center 1261 “Magnetoelectric Sensors: From Composite Materials to Biomagnetic Diagnostics”, funded by the German Research Foundation, has dedicated its work to establishing a fundamental understanding of magnetoelectric sensors and their performance parameters, pushing the performance of magnetoelectric sensors to the limits and establishing full magnetoelectric sensor systems in biological and clinical practice.Research & information: generalbicsscPhysicsbicsscElectricity, electromagnetism & magnetismbicsscdelta-E effectmagnetoelectricmagnetoelasticresonatortorsion modebending modemagnetic modelingMEMSFEMmagnetoelectric sensorSQUIDMEGdeep brain stimulation (DBS)directional DBS electrodemagnetic field measurementelectrode localizationrotational orientation detectionBarkhausen noisedelay line sensorFlicker noiseKerr microscopymagnetic domain networksmagnetic field sensormagnetic noisemagnetoelastic delta-E effectphase noisesurface acoustic wavelocalizationmagnetoelectric sensorsreal timepose estimationmagnetoactive elastomerpiezoelectric polymerlaminated structurecantileverdirect magnetoelectric effectpublic understanding/outreachME sensorsmedical sensingbiomagnetic sensinginterdisciplinary/multidisciplinarymagnetometersensor arrayexchange biasmotion trackingartificial fieldssurface acoustic wavessurface acoustic wave sensorcurrent sensormagnetostrictionAlScNFeCoSiBthin filmmagnetron sputter depositionERDAXRDfilm stressmagnetic propertiesmagnetic domainsSAWmagnetic nanoparticleimaginginverse problemblind deconvolutionapplication specific signal evaluationquantitative sensor system characterizationsensor system performanceResearch & information: generalPhysicsElectricity, electromagnetism & magnetismSchmidt Gerhardedt358999Quandt EckhardedtSun Nian XedtBahr AndreasedtSchmidt GerhardothQuandt EckhardothSun Nian XothBahr AndreasothBOOK9910566480603321Magnetoelectric Sensor Systems and Applications3019231UNINA