2024
DOI: 10.1016/j.measurement.2023.113963
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A temperature measurement method based on time parameters associated to CoFeSiB microwire magneto-thermal behavior

Gianluca Caposciutti,
Mirko Marracci,
Carlo Trigona
et al.
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Cited by 3 publications
(3 citation statements)
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“…The time intervals measurement presents a fundamental advantage of employing bistable microwires into the measurement chain because the size of the microwire response amplitude is irrelevant, but the time at which the switching field is reached matters. The time at which the switching field is reached is called the switching time (t1 and t2 in Figure 4) [24][25][26][27][28][29][30][31]. In the scenario where the excitation coil magnetizes the bistable microwire without any additional external magnetic field, t 1 = t 2 .…”
Section: Coils System and Switching Time Measurementmentioning
confidence: 99%
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“…The time intervals measurement presents a fundamental advantage of employing bistable microwires into the measurement chain because the size of the microwire response amplitude is irrelevant, but the time at which the switching field is reached matters. The time at which the switching field is reached is called the switching time (t1 and t2 in Figure 4) [24][25][26][27][28][29][30][31]. In the scenario where the excitation coil magnetizes the bistable microwire without any additional external magnetic field, t 1 = t 2 .…”
Section: Coils System and Switching Time Measurementmentioning
confidence: 99%
“…Such dependencies can be used for sensing applications [ 24 , 25 , 26 , 27 , 28 ]. Contrary to the classical magnetic sensors based on permeability variation, bistable wires are characterized by low permeability (comparable to the permeability of a vacuum) [ 29 , 30 , 31 , 32 ]. On the other hand, the contribution of the magnetic field, temperature, or stress to the switching field can be easily separated using the triangular shape of the excitation field and properly selected chemical composition.…”
Section: Introductionmentioning
confidence: 99%
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