Effects of Field Cooling Direction on Magnetoresistance of Exchange-Biased Magnetic Tunnel Junction Rings

Abstract: We report an effect of field cooling direction on the magnetoresistance of ring-shaped magnetic tunnel junctions consisting of Ta 5/Cu 20/ Ta 5/NiFe 2/Cu 5/MnIr 10/CoFe 4/Al-N 1.5/CoFe 4/NiFe 20/Ta 5-cap (thickness in nm). The magnetoresistances were both enhanced, in comparison to the as-fabricated ring device, with field-cooling directions applied in the film plane as well as perpendicular to the film plane but with greater increase in the case of perpendicular-field-cooled. Many cycles of planar-and perpend… Show more

“…There are many methods for studying the magnetization reversal of magnetic thin films: the use of a magnetoresistance, 1,2) magnetic force microscope (MFM), 3,4) a vibrating sample magnetometer (VSM), 5) the magneto-optical Kerr effect (MOKE), 6,7) and a superconducting quantum interference device (SQUID). 8) However, the magnetic behavior of ferromagnetic thin films is studied by using a magnetic actuator in this study.…”

Magnetization Reversal in Different Magnetic Thin Films Studied Using a Magnetic Actuator

“…There are many methods for studying the magnetization reversal of magnetic thin films: the use of a magnetoresistance, 1,2) magnetic force microscope (MFM), 3,4) a vibrating sample magnetometer (VSM), 5) the magneto-optical Kerr effect (MOKE), 6,7) and a superconducting quantum interference device (SQUID). 8) However, the magnetic behavior of ferromagnetic thin films is studied by using a magnetic actuator in this study.…”

Magnetization Reversal in Different Magnetic Thin Films Studied Using a Magnetic Actuator

Investigation on the Exchange Coupling Properties of Ring-Shaped MnIr/CoFe Bilayers

Magnetization Reversal in Different Magnetic Thin Films Studied Using a Magnetic Actuator