a magnetoresistance effect film including a magnetization fixed layer having a ferromagnetic film in which the direction of magnetization is substantially fixed to one direction, a magnetization free layer having a ferromagnetic film in which the direction of magnetization varies in response to an external magnetic field, and a non-magnetic intermediate layer provided between the magnetization fixed layer and the magnetization free layer;

a pair of electrodes which are electrically connected to the magnetoresistance effect film and configured to apply a current in a direction perpendicular to the plane of the magnetoresistance effect film; and

a resistance regulating layer containing an oxide, a nitride, a fluoride, a carbide or a boride;

the resistance regulating layer formed in the non-magnetic intermediate layer or on the interface between the non-magnetic intermediate layer and at least one of the magnetization fixed layer and the magnetization free layer,

the ferromagnetic film of the magnetization fixed layer comprising a stacked structure, which has at least a non-magnetic layer and two first magnetic layers sandwiching the non-magnetic layer, and a second magnetic layer formed of Fe or an Fe base alloy having a body-centered cubic structure, magnetizations of the first magnetic layers are substantially parallel to each other and substantially arranged in the same direction, and

the ferromagnetic film of the magnetization free layer comprising a third magnetic layer formed of Fe or an Fe base alloy having a body-centered cubic structure and a fourth magnetic layer having a face-centered cubic structure stacked on the third magnetic layer.