@article{SisLab3505,
          volume = {10},
           month = {April},
          author = {Khac Quynh Le and The Hien Nguyen and Hai Binh Nguyen and Tien Dung Tran and Dinh Tu Bui and Huu Duc Nguyen and Thi Huong Giang Do},
           title = {Simple planar Hall effect based sensors for
low-magnetic field detection},
       publisher = {IOP publishing},
         journal = {Advances in Natural Sciences: Nanoscience and Nanotechnology},
           pages = {025002},
            year = {2019},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/3505/},
        abstract = {Magnetic field sensors based on the planar Hall effect using single layer Ni80Fe20 thin films have
been designed, fabricated and characterized. By optimizing the sensor?s dimension, such as the
thickness and the length to width ratio, experimental results have shown that the sensor?s
sensitivity could be increased up to three times thanks to the enhancement of the shape magnetic anisotropy. The highest sensitivity of 100 {\ensuremath{\mu}}VOe?1 corresponding to the relative resistance change up to 20 m?/Oe was achieved at a supplied DC current of 5 mA for the cross-shaped geometry of the sensor with 5 nm in the thickness and a length/width ratio of 10. Simple structure, low fabrication cost, and low power consumption make this sensor very promising for low field magnetic field sensing such as geomagnetic field detections.}
}