TH38429A - The magnetic resistance-changing reader head with a magnetic junction with a sensing layer as a rear flux indication. - Google Patents

Abstract

DC60 (31/08/41) Magnetic Tunneling Magnetic Readers (HTJ) for Magnetic Logging Systems with MTJ sensing layers or independent ferromagnetic layers that also act as flux cues to Remove the magnetic flux from the parent recording medium. Iron to tunnel junction The constant ferromagnetic layer MTJ and the transverse barrier layer MTJ have their front edge in the same plane, essentially with the sensing surface of the head. Both fixed and The free ferromagnetic layer is in contact with the opposite surface of the transverse layer of the MTJ tunnel, but the ferromac layer Free legal extends over the back edge of the barrier tunnel or fixed ferromagnetic layer. No matter the edge After any, it is close to the detection surface. This ensures that the magnetic flux is not zero in the region. Tunnel Junction The magnetization direction of the constant ferromagnetic layer has been maintained in the perpendicular direction. Typically with sensing surfaces and magnetic recording media. As it should have been by connecting exchange Between the face and the antiferromantic class The magnetization direction of the free ferromagnetic layer is given Direct orientation in a direction that is significantly parallel to the surface of such media where the mother field is not used. Iron and is free to rotate when a magnetic field from such medium is applied. Magnetic material layer hardened condition Forcing a high class adjacent to the side of the ferromagnetic bias layer. Longitudinal independent magnetics in the direction they should Magnetic Tunneling Magnetic Readers (HTJ) for Magnetic Logging Systems MTJ sensing layers or Ferromag layers. The independent law also acts as an inductor to bring the flux. Magnet from magnetic recording media to tunnel junction The constant ferromagnetic layer MTJ and the transverse barrier layer MTJ have their front edges in the same plane, essentially with The detection surface of the head Both the fixed and the ferrous layers. The free magnetics touch the opposite surface of the MTJ tunnel barrier layer, but the free ferromagnetic layer extends beyond the rear edge. Of the barrier layer, tunnel or constant ferromagnetic layer, no matter which rear edge is close to the detection surface.This ensures that the magnetic flux is not zero in Tunnel Junction area Magnetization direction of the ferrous layer The constant magnetics was maintained in a generally perpendicular direction. With detection surfaces and magnetic recording media As it should be And by connecting the exchange between page and Ann class Tifferro Magnitic Magnetization direction of the ferromac layer Independent laws are aligned in exactly parallel directions. It is important to the surface of such media that the mother field is not used. Iron and are free to rotate when a magnetic field from such medium is applied. A class of highly compulsory solid magnetic material. Adjacent to the side of the ferromagnetic class Bias. Steel of the free ferromagnetic class, longitudinal in the direction it should be.

Claims (1)

1.Magnetic resistance-changing probe, magnetic tunneling, for detecting recorded data. Magnetically on the media when it has been connected to a series of sensing circuits. The head has an important plane sensing surface that Have been placed upright, generally parallel to the surface of the media, thus That said, when magnetically recorded data is being detected, it includes such a head when magnetic data Magnetic records are being detected. Base plate with a tag-shaped edge: