Title :
Highly Sensitive Thin-Film Magnetic Field Sensor Meandering Coplanar Line
Author :
Uetake, H. ; Kawakami, T. ; Moriya, K. ; Yabukami, S. ; Ozawa, T.
Author_Institution :
Tohoku Gakuin Univ., Tagajo, Japan
Abstract :
A very sensitive thin-film sensor was developed using a meandering coplanar line fabricated from Sr33Ti16O51 film (3 μm thick), amorphous Co85Nb12Zr3 film (1 mm×2.45 mm, 0.3-2 μm thick), and Cu/Cr film (2/0.1 μm). The deposited SrTiO film enhanced the sensitivity of a magnetic held sensor, a phase change of more than 30°/Oe and a gain of over -40 dB being achieved simultaneously. The maximum phase change (sensitivity) was observed for a CoNbZr film thickness of ~0.5-1 μm. The sensitive bias held and carrier frequency increased as the CoNbZr film thickness increased. The optimum CoNbZr film thickness was realized by the tradeoff between the sensitive bias held and the volume of the CoNbZr film.
Keywords :
chromium; cobalt compounds; copper; magnetic field measurement; magnetic sensors; strontium compounds; thickness measurement; thin film sensors; Sr33Ti16O51-Co85Nb12Zr3-Cu-Cr; maximum phase change; meandering coplanar line; size 3 mum; thickness measurement; thin-film magnetic field sensor; Films; Gain; Magnetic field measurement; Magnetic fields; Sensitivity; Sputtering; Thin film sensors; Meandering coplanar line; Sr33Ti16O51 film; meandering coplanar line; thin film sensor; thin-film sensor;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2448552
