摘要:
Within a soft adjacent layer (SAL) magnetoresistive (MR) sensor element which may be employed within a magnetic head there is first employed a substrate. Formed over the substrate is a soft adjacent layer (SAL). In turn, formed upon the soft adjacent layer (SAL) is a dielectric layer. Finally, in turn, formed at least in part upon the dielectric layer is a magnetoresistive (MR) layer. Within the soft adjacent layer (SAL) magnetoresistive (MR) sensor element the soft adjacent layer (SAL) and the dielectric layer are planar. In addition, within the soft adjacent layer (SAL) magnetoresistive (MR) sensor element both an upper surface of the magnetoresistive (MR) layer and a lower interface of the magnetoresistive (MR) layer are non-planar.
摘要:
A soft adjacent layer (SAL) magnetoresistive (MR) sensor element and a method for fabricating the soft adjacent layer (SAL) magnetoresistive (MR) sensor element. To practice the method, there is first provided a substrate. There is then formed over the substrate a soft adjacent layer (SAL). There is then formed upon the soft adjacent layer (SAL) a dielectric layer. There is then formed at least in part contacting the dielectric layer a magnetoresistive (MR) layer, where the soft adjacent layer (SAL) and the dielectric layer are planar. The method contemplates the soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed through the method.
摘要:
A method for fabricating a soft adjacent layer (SAL) magnetoresistive (MR) sensor element and several soft adjacent layer (SAL) magnetoresistive (MR) sensor elements which may be fabricated employing the method. There is first provided a substrate. There is formed over the substrate a dielectric layer, where the dielectric layer has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer contacting the first surface of the dielectric layer. There is also formed over the substrate a soft adjacent layer (SAL), where the soft adjacent layer (SAL) has a first surface of the soft adjacent layer (SAL) and a second surface of the soft adjacent layer (SAL). The first surface of the soft adjacent layer (SAL) contacts the second surface of the dielectric layer. Finally, there is also formed over the substrate a transverse magnetic biasing layer, where the transverse magnetic biasing layer contacts the second surface of the soft adjacent layer (SAL), and where at least one of the dielectric layer, the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the transverse magnetic biasing layer is a patterned layer formed employing an etch mask which serves as a lift-off stencil for forming a patterned second dielectric layer adjoining an edge of the patterned layer. The invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed with the magnetoresistive (MR) layer interposed between the substrate and the soft adjacent layer (SAL). Similarly, the invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element employing a transverse magnetic biasing layer formed of a hard bias permanent magnet material.
摘要:
A method for fabricating a soft adjacent layer (SAL) magnetoresistive (MR) sensor element and several soft adjacent layer (SAL) magnetoresistive (MR) sensor elements which may be fabricated employing the method. There is first provided a substrate. There is formed over the substrate a dielectric layer, where the dielectric layer has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer contacting the first surface of the dielectric layer. There is also formed over the substrate a soft adjacent layer (SAL), where the soft adjacent layer (SAL) has a first surface of the soft adjacent layer (SAL) and a second surface of the soft adjacent layer (SAL). The first surface of the soft adjacent layer (SAL) contacts the second surface of the dielectric layer. Finally, there is also formed over the substrate a transverse magnetic biasing layer, where the transverse magnetic biasing layer contacts the second surface of the soft adjacent layer (SAL), and where at least one of the dielectric layer, the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the transverse magnetic biasing layer is a patterned layer formed employing an etch mask which serves as a lift-off stencil for forming a patterned second dielectric layer adjoining an edge of the patterned layer. The invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed with the magnetoresistive (MR) layer interposed between the substrate and the soft adjacent layer (SAL). Similarly, the invention also contemplates a soft adjacent layer (SAL) magnetoresistive (MR) sensor element employing a transverse magnetic biasing layer formed of a hard bias permanent magnet material.
摘要:
A merged read/write magnetic recording head comprises a low magnetic moment first magnetic shield layer over a substrate. A read gap layer with a magnetoresistive head is formed over the first shield layer. A shared pole comprises a low magnetic moment second magnetic shield layer plated on a sputtered seed PLM layer over the read gap layer, a non-magnetic layer plated over the PLM layer and a HMM lower pole layer plated over the second magnetic shield layer. A write gap layer is formed over the first high magnetic moment pole layer of the shared pole. An upper pole comprises a high magnetic moment pole layer over the write gap layer.
摘要:
A merged read/write magnetic recording head comprises a low magnetic moment first magnetic shield layer over a substrate. A read gap layer with a magnetoresistive head is formed over the first shield layer. A shared pole comprises a low magnetic moment second magnetic shield layer plated on a sputtered seed PLM layer over the read gap layer, a non-magnetic layer plated over the PLM layer and a HMM lower pole layer plated over the second magnetic shield layer. A write gap layer is formed over the first high magnetic moment pole layer of the shared pole. An upper pole comprises a high magnetic moment pole layer over the write gap layer.
摘要:
A method to form a passivation layer using an electrochemical process over a MR Sensor so that the passivation layer defines the MR track width. The passivation layer is formed by anodizing the MR sensor. The passivation layer is an electrical insulator (preventing Sensor current (I) from shunting through the overspray) and a heat conductor to allow MR heat to dissipate away from the MR sensor through the overspray. The method comprises: forming a passivation layer on the MR sensor; the passivation layer formed using an electrochemical process. Then we spinning-on and printing a lift-off photoresist structure over the passivation layer. The passivation layer is etched to remove the passivation layer not covered by the lift-off structure thereby defining a track width of the MR sensor. Then we deposit a lead layer over the passivation layer and MR sensor. The lift-off structure is removed where by the passivation layer defines a track width. The passivation layer is an electrical insulator that prevents sensor current (I) form shunting through overspray layers while allowing heat to dissipate through to the lead layer.
摘要:
A soft adjacent layer (SAL) magnetoresistive (MR) sensor element and a method for fabricating the soft adjacent layer (SAL) magnetoresistive (MR) sensor element. To practice the method, there is first provided a substrate. There is formed over the substrate a dielectric layer which has a first surface of the dielectric layer and a second surface of the dielectric layer opposite the first surface of the dielectric layer. There is also formed over the substrate a magnetoresistive (MR) layer in contact with the first surface of the dielectric layer. Similarly, there is also formed over the substrate a soft adjacent layer (SAL) in contact with the second surface of the blanket dielectric layer, where the magnetoresistive (MR) layer, the soft adjacent layer (SAL) and the dielectric layer are planar and preferably at least substantially co-extensive. The invention contemplates the soft adjacent layer (SAL) magnetoresistive (MR) sensor element formed through the method of the invention.
摘要:
A magnetic read head with reduced side reading characteristics is described. This design combines use of a current channeling layer (CCL) with stabilizing longitudinal bias layers whose magnetization direction is canted relative to that of the free layer easy axis and that of the pinned layer (of the GMR). This provides several advantages: First, the canting of the free layer at the side region results in a reduction of side reading by reducing magnetic sensitivity in that region. Second, the CCL leads to a narrow current flow profile at the side region, therefore producing a narrow track width definition. A process for making this device is described. Said process allows some of the requirements for interface cleaning associated with prior art processes to be relaxed.
摘要:
A general process for filling a trench is described with particular emphasis on the formation of step P1 during the manufacture of a magnetic write head. The main feature of this process is that a liftoff mask is used for both the trench formation and the filling processes. As a result of this approach, the area surrounding the trench is not disturbed, the trench depth is not reduced, and the original overall planarity, prior to etching and filling, is maintained.