Patent application number | Description | Published |
20080271308 | METHOD OF MANUFACTURING A PERPENDICULAR MAGNETIC WRITE HEAD HAVING A WRAP-AROUND TRAILING SHIELD AND A CONCAVE TRAILING EDGE MAIN POLE - A method for manufacturing a magnetic write head for perpendicular magnetic recording. The method allows the write head to be formed with a write pole having a concave trailing edge. The method further allows the amount of concavity of the trailing edge to be accurately and carefully controlled both within a wafer and between wafers. A write pole is formed using a mask that includes a hard mask, a RIEable layer and an endpoint detection layer. A layer of non-magnetic material (ALD layer) h deposited, and then, an ion milling process is used to remove a portion of the ALD layer disposed over the write pole and mask. A reactive ion etch process is performed to remove the RIEable layer leaving the ALD layer to form non-magnetic side walls with upper portions that extend above the write pole. Another ion milling is then performed, preferably at an angle relative to normal, such that shadowing from the upper portions of the non-magnetic side walls causes the ion milling to form the write pole with a concave trailing edge. | 11-06-2008 |
20080276448 | METHOD FOR DEFINING THE TRAILING SHIELD THROAT HEIGHT IN A PERPENDICULAR MAGNETIC RECORDING WRITE HEAD - A method of forming a perpendicular magnetic recording write head having a trailing shield (TS) with a precisely defined throat height (TH) on an air-bearing slider includes depositing an electrical lapping guide (ELG) layer on the substrate adjacent to and spaced from the write pole (WP) layer. A nonmagnetic TS pad layer is deposited on both the gap layer and the ELG layer, with the TS pad layer patterned to have a front edge extending across the both the ELG layer and the gap layer and recessed from the line where the substrate will be later cut to form the slider. An ELG protection layer is patterned on the ELG layer, the TS pad layer material is removed from the ELG layer in the region recessed from the TS pad layer front edge, and the ELG layer is removed in regions not covered by the ELG protection layer. The ELG protection layer is then removed, leaving the ELG layer having a back edge collinear with the TS pad layer front edge so that the TS TH is precisely defined during subsequent lapping of the slider. | 11-13-2008 |
20090117407 | SHORT FLARE DEFINITION BY ADDITIVE PROCESS FOR PERPENDICULAR HEAD - A method for manufacturing a magnetic write head for perpendicular magnetic recording. The method includes forming a write pole, and then depositing a refill layer. A mask structure can be formed over the writ pole and refill layer, the mask structure being configured to define a stitched pole. An ion milling or reactive ion milling can then be performed to remove portions of the refill layer that are not protected by the mask structure. Then a magnetic material can be deposited to form a stitched write pole that defines a secondary flare point. The stitched pole can also be self aligned with an electrical lapping guide in order to accurately locate the front edge of the secondary flare point relative to the air bearing surface of the write head. | 05-07-2009 |
20090139080 | FENCELESS MAIN POLE DEFINITION FOR ADVANCED PERPENDICULAR MAGNETIC WRITE HEAD - A method for manufacturing a magnetic write head that avoids the challenges associated with the formation of fence structures during write pole definition. A magnetic write pole material is deposited. A mask structure is deposited over the magnetic write pole material. The mask structure includes a first hard mask, a marker layer, a physically robust, inorganic RIEable image transfer layer, a second hard mask structure over the image transfer layer and a photoresist layer over the second hard mask. A reactive ion etching process can be used to transfer the image of the photoresist mask and second hard mask layer onto the image transfer layer. An ion milling is performed to define the write pole. A layer of non-magnetic material such as alumina is deposited. An ion milling is performed until the marker layer has been reached, and another reactive ion etching is performed to remove the remaining hard mask. | 06-04-2009 |
20090139958 | FENCELESS MAIN POLE DEFINITION FOR ADVANCED PERPENDICULAR MAGNETIC WRITE HEAD - A method for manufacturing a magnetic write head for perpendicular magnetic recording. The method includes forming a write pole using a mask that includes a hard mask layer deposited over the write pole laminate material, and a thick, physically robust image transfer layer. The image transfer layer can be a material such as AlTiO that can be patterned by a reactive ion etching process, but which also resists deformation during processing. This process allows a write pole and wrap-around trailing shield to be constructed at very narrow track widths without the mask deformation and fencing problems experienced by prior art methods. | 06-04-2009 |
20090152234 | PROCESS FOR SELF-ALIGNED FLARE POINT AND SHIELD THROAT DEFINITION PRIOR TO MAIN POLE PATTERNING - A method for manufacturing a magnetic write head having a write pole with a flared step feature that defines a secondary flare point. The method involves depositing a magnetic write pole material on a substrate and then depositing a magnetic material over the write pole material followed by a non-magnetic material. A first mask is formed having a front edge to define the location of the secondary flare point, and one or more material removal processes are used to remove portions of the magnetic layer and non-magnetic layer that are not protected by this first mask. The first mask is replaced by a second mask that is configured to define a write pole, and an ion milling is performed to define the write pole. Shadowing from the magnetic layer and non-magnetic layer form a flared secondary flare point. | 06-18-2009 |
20090154015 | MAGNETIC WRITE POLE FABRICATION - Write elements and methods of fabricating magnetic write poles are described. For one method, a vertical mask structure is formed on a magnetic layer in locations of a pole tip and a yoke of a write pole. The vertical mask structure may be formed by coating vertical surfaces of resists with an atomic layer deposition (ALD) process or a similar process. A removal process is then performed around the vertical mask structure to define the pole tip and part of the yoke of the write pole, and the vertical mask structure is removed. A lower portion of the pole tip is them masked while the upper portion of the pole tip and the part of the yoke is exposed. The upper portion of the pole tip and the part of the yoke are then expanded with magnetic material, such as with a plating process. | 06-18-2009 |
20090168258 | HYBRID, SELF ALIGNED MAGNETIC WRITE HEAD WITH A PARTIALLY PLATED POLE AND METHOD OF PRODUCING SAME - A magnetic write head for perpendicular magnetic recording. The write head has a secondary flare point defined by magnetic structures that extend from the sides of the write pole, but not over the trailing edge of the write pole. The magnetic structures each have a front edge that defines the secondary flare point. By constructing the magnetic structures so that they only extend from the sides of the write pole and not over the write pole, they can be formed by electroplating, while leafing the mask structure (used to define the write pole) still intact, thereby greatly simplifying manufacture and preventing damage to the write pole during manufacture. | 07-02-2009 |
20090195920 | Main pole bridge structure - A method of reducing flux leakage between a main pole and a wrap around shield (WAS) is provided. A gap underneath a main pole is etched. Magnetic material is deposited in the gap. A layer of nonmagnetic material is deposited on the magnetic material, wherein the layer of nonmagnetic material reduces flux leakage between the main pole and the WAS. | 08-06-2009 |
20090268348 | WRITE HEAD LAPPING GUIDE ABOUT ALIGNED TO A NON-MAGNETIC LAYER SURROUNDING A WRITE POLE AND A METHOD FOR MAKING THE SAME - A method in one embodiment includes forming an electric lapping guide layer; forming a write pole; forming a first gap layer over the write pole; masking a portion of the first gap layer for defining a window over the write pole and at least a portion of the electric lapping guide layer; and forming a bump over the write pole in the window. A system in one embodiment includes an electric lapping guide layer; a write pole positioned to one side of the electric lapping guide layer; and a bump formed over the write pole in a window, wherein a back end of the electric lapping guide layer and a front end of the bump are about a same distance from a lapped surface of a head. Additional methods and systems are presented. | 10-29-2009 |
20100021764 | METHODS AND SYSTEMS FOR CONFINING SENSE CURRENT OF A CPP READ TRANSDUCER TO THE ABS SIDE OF THE FREELAYER - A method in one embodiment includes forming a mask above a thin film sensor stack; forming an electrically insulating layer above the mask and sensor stack, the insulating layer having a portion extending along a nonhorizontal end of the mask; selectively removing the insulating layer except for the portion thereof extending along the nonhorizontal end of the mask; removing portions of the sensor stack that are not covered by the mask and the portion of the insulating layer, wherein an end of the portion of the insulating layer positioned away from the mask is about aligned with a back end of the sensor stack after removing the portions thereof; and removing the mask. Additional systems and methods are also presented. | 01-28-2010 |
20100155232 | METHOD FOR MANUFACTURING A MAGNETIC WRITE HEAD HAVING A WRITE POLE TRAILING EDGE TAPER - A method for manufacturing a magnetic write head for perpendicular magnetic data recording, having a write pole with a tapered trailing edge for improved write field at small bit lengths. The trailing edge taper is formed by a deposition process that can be performed after the write pole flare point has already been formed, and especially after a wrap around shield side gap has been formed. This advantageously allows the distance between the write pole flare point and the trailing edge taper to be closely controlled. | 06-24-2010 |
20100155363 | METHOD FOR MANUFACTURING A MAGNETIC WRITE HEAD HAVING A WRITE POLE WITH A TRAILING EDGE TAPER USING A RIEABLE HARD MASK - A method for manufacturing a magnetic write head having a write pole with a tapered, stepped trailing edge. The method includes depositing a magnetic write pole material over a substrate, and then forming a magnetic step structure over the magnetic write pole material. A mask structure is then formed, which includes a multilayer hard mask formed over the magnetic write pole material and the magnetic step structure. An ion milling process is then performed to remove a portion of the write pole material to define a write pole. A non-magnetic material can be deposited and ion milling performed to form non-magnetic side gap layer at the sides of the write pole. A multi-step reactive ion milling process can then be performed to remove the remaining hard mask from over the write pole. | 06-24-2010 |
20100155364 | MAGNETIC WRITE HEAD HAVING A STEPPED TRAILING SHIELD AND WRITE POLE WITH A SLOPED TRAILING EDGE - A method for manufacturing a magnetic write head having a write pole a tapered trailing edge and a trailing, wrap-around magnetic shield with a slanted bump structure that steps away from the magnetic write pole. The method involves first forming a write pole and non-magnetic side gap layers, and then depositing a non-magnetic RIEable material. A mask is formed on the RIEable material and a reactive ion etching (RIE) is performed to form the RIEable material layer into a nonmagnetic bump with a tapered front edge. | 06-24-2010 |
20100155367 | METHOD FOR MANUFACTURING A MAGNETIC WRITE HEAD HAVING A HARD MASK DEFINED WRITE POLE TRAILING EDGE STEP - A method for manufacturing a magnetic write head having a write pole with a tapered trailing edge step. The resulting tapered trailing edge step maximizes write field at very small bit sizes by preventing the magnetic saturation of the write pole at the pole tip. The method includes depositing a magnetic write pole material and then depositing a magnetic material over the magnetic write pole material. A RIE mask and hard mask are deposited over the magnetic bump material. A resist mask is formed over the RIE mask and hard mask, and a reactive ion etching is performed to transfer the pattern of the resist mask onto the underlying hard mask. Then an ion milling is performed to form a the magnetic step layer with a tapered edge that defines a tapered trailing edge step structure of the write pole. | 06-24-2010 |
20100157472 | MAGNETIC WRITE HEAD HAVING A SELF-ALIGNED SIDE WRAP-AROUND SHIELD WITH MULTI-ANGLE SLANTED BUMP - A method for forming a magnetic write head having a trailing shield with a tapered and stepped, self aligned trailing magnetic shield. The shield has a tapered portion that tapers away from the write pole as it extends away from the ABS. This tapered portion helps to channel flux to the pole tip portion of the shield, while preventing the loss of write field to the shield. The stepped portion of the shield further helps to prevent the loss of write field and also defines a secondary throat height of the shield that can be accurately located relative to the air bearing surface. | 06-24-2010 |
20100157474 | METHOD OF MULTI-ANGLED BUMP PROCESSING FOR MAGNETIC POLE FABRICATION AND SYSTEMS THEREOF - A system according to one embodiment includes a magnetic pole; a bump structure above the pole, the bump structure having a first surface oriented at a first angle between 1° and 89° from a plane of deposition of the pole, and a second surface oriented at a second angle between 1° and 89° from the plane of deposition of the pole, wherein the second angle is greater than the first angle; and a shield above the bump structure. A method according to one embodiment includes forming a bump layer above a magnetic pole; removing a portion of the bump layer for forming a step therein; and milling the bump layer for defining thereon a first surface oriented at a first angle between 1° and 89° from a plane of deposition of the bump layer, and a second surface oriented at a second angle between 1° and 89° from the plane of deposition of the bump layer, wherein the second angle is greater than the first angle. | 06-24-2010 |
20100159282 | METHODS FOR CREATING A MAGNETIC MAIN POLE WITH SIDE SHIELD AND SYSTEMS THEREOF - A method according to another embodiment includes forming a side shield layer of ferromagnetic material above a substrate; masking the side shield layer; milling an unmasked region of the side shield layer for forming a pole trench therein; and forming a pole layer in the pole trench. A structure according to one embodiment includes a substrate; a side shield layer of ferromagnetic material on the substrate, wherein the substrate has a region covered by the side shield layer and a region not covered by the side shield layer; a pole trench in the side shield layer and the region of the substrate not covered by the side shield layer; a layer of nonmagnetic material in the pole trench; and a pole layer in the pole trench, wherein the pole layer has a greater thickness above the region of the substrate not covered by the side shield layer than above the region of the substrate covered by the side shield layer. | 06-24-2010 |
20100163522 | METHOD FOR MANUFACTURING A WRITE POLE OF A MAGNETIC WRITE HEAD FOR MAGNETIC DATA RECORDING - A method for manufacturing a magnetic write head. The write head is constructed by a method that includes depositing a magnetic write pole material and then depositing a hard mask over the magnetic material. An inorganic image transfer layer is formed over the hard mask. SiC, alumina, SiO | 07-01-2010 |
20100165513 | WRITE HEAD WITH SELF-ALIGN LAYER AND A METHOD FOR MAKING THE SAME - A system according to one embodiment includes a write pole having an end region positioned towards an air bearing surface, a first flare point, and a second flare point positioned between the air bearing surface and the first flare point; and a shield positioned above the write pole, wherein a cross sectional area of the write pole at a point between the first and second flare points along a plane passing through the write pole and oriented about parallel to the air bearing surface is greater than a cross sectional area of the end region of the write pole along a plane oriented parallel to the plane passing through the second flare point. Additional systems and methods are also presented. | 07-01-2010 |
20100296193 | PERPENDICULAR MAGNETIC RECORDING WRITE HEAD WITH NOTCHED TRAILING SHIELD - A perpendicular magnetic recording write head has a write pole, a trapezoidal-shaped trailing shield notch, and a gap between the write pole and notch, with the gap being formed of a nonmagnetic mask film, such as alumina, a nonmagnetic metal protective film and a nonmagnetic gap layer. The write pole has a trailing edge that has a width substantially defining the track width and that faces the front edge of the notch but is spaced from it by the gap. The write pole has nonmagnetic filler material, such as alumina, surrounding it except at its trailing edge, where it is in contact with the gap. A reactive ion beam etching (RIBE) process removes the filler material at the side edges of the write pole and thus widens the opening at the side edges. The nonmagnetic metal film protects the underlying mask film and write pole during the widening of the opening. The gap layer and trailing shield notch are deposited into a widened opening above the write pole, so the sides of the notch diverge to cause the generally trapezoidal shape. | 11-25-2010 |
20110075299 | MAGNETIC WRITE HEADS FOR HARD DISK DRIVES AND METHOD OF FORMING SAME - Embodiments provide a write pole and a magnetic shield for write heads. The write pole includes a trailing step, while the magnetic shield includes a slanted bump. The slanted bump and the trailing step provides maximize magnetic flux for writing to a magnetic media such as a magnetic storage disk in a hard disk drive, while avoiding saturation. One embodiment of a method for forming the write pole includes depositing non-magnetic gap material on the write pole and trailing step. An ion beam milling process is used to form a taper in the non-magnetic gap material. The magnetic shield is then deposited on the taper, forming the slanted bump of the shield. | 03-31-2011 |
20110076393 | TRAILING PLATED STEP - Methods for fabrication of magnetic write heads, and more specifically to fabrication of magnetic poles and trailing magnetic pole steps. A write pole may first be patterned on a substrate. Then a side gap material may be patterned along sidewall portions of the write pole. Thereafter, a masking layer may be deposited and patterned to expose a portion of the write pole. A trailing magnetic pole step may be formed on the exposed portion of the write pole. | 03-31-2011 |
20110096434 | SYSTEMS HAVING WRITER WITH DEEPER WRAP AROUND SHIELD AND METHODS FOR MAKING THE SAME - A method according to one embodiment includes etching an underlayer positioned under a main pole for reducing a thickness thereof and creating an undercut under the main pole; adding a gap material along sides of the main pole and in the undercut; and forming a shield along at least a portion of the gap material. A magnetic head according to one embodiment includes a main pole; an underlayer positioned under the main pole and spaced therefrom, thereby defining an undercut therebetween; a first layer of gap material extending along sides of the main pole and in the undercut; a second layer of gap material extending continuously along the underlayer under the main pole; and a shield encircling the main pole, wherein the shield extends between the first and second layers of gap material in the undercut. Additional systems and methods are also presented. | 04-28-2011 |
20110132869 | MAGNETIC WRITE HEAD MANUFACTURED BY DAMASCENE PROCESS PRODUCING A TAPERED WRITE POLE WITH A NON-MAGNETIC STEP AND NON-MAGNETIC BUMP - A method for manufacturing a magnetic write head having a non-magnetic step layer, non-magnetic bump at the front of the non-magnetic step layer and a write pole with a tapered trailing edge. The tapered portion of the trailing edge of the write pole is formed by a two step process that allows the write pole taper to be formed with greater accuracy and repeatability than would be possible using a single step taper process. An alternative method is also described on how to make a non-magnetic bump structure with adjustable bump throat height prior to Damascene side shield gap formation in a Damascene wrap around shield head. | 06-09-2011 |
20110134569 | PMR WRITER AND METHOD OF FABRICATION - Methods for fabrication of tapered magnetic poles with a non-magnetic front bump layer. A magnetic pole may have a plurality of tapered surfaces at or near and air bearing surface (ABS), wherein a thickness of the write pole increases in a direction away from the ABS. A non-magnetic front bump layer may be formed on one or more of the tapered surfaces of the magnetic pole at a distance from the ABS. The front bump layer may increase the separation distance between a shield layer and the magnetic pole near the tapered surface, thereby improving the performance of the write head. | 06-09-2011 |
20110135962 | PMR WRITER AND METHOD OF FABRICATION - Methods for fabrication of tapered magnetic poles with a non-magnetic front bump layer. A magnetic pole may have a tapered surface at or near and air bearing surface (ABS), wherein a thickness of the write pole increases in a direction away from the ABS. A non-magnetic front bump layer may be formed on the tapered surface of the magnetic pole and away from the ABS. The front bump layer may increase the separation distance between a shield layer and the magnetic pole near the tapered surface, thereby improving the performance of the write head. | 06-09-2011 |
20110147222 | METHOD FOR MANUFACTURING A PERPENDICULAR MAGNETIC WRITE HEAD HAVING A TAPERED WRITE POLE AND A STEPPED WRAP AROUND SIDE SHIELD GAP - A method for manufacturing a magnetic write head that has a trailing magnetic shield with a tapered write pole trailing edge, a non-magnetic step layer and a Ru bump and an alumina bump formed at the front of the non-magnetic step layer. The process forms a Ru/alumina side wall at the sides of the write pole, such that the Ru side wall is closest to the write pole. The Ru is removed more readily than the alumina during the ion milling that is performed to taper the write pole. This causes the Ru portion of the side wall to taper away from the write pole rather than forming an abrupt step. This tapering prevents dishing of the trailing edge of the write pole for improved write head performance. | 06-23-2011 |
20110151279 | MAGNETIC WRITE HEAD MANUFACTURED BY AN ENHANCED DAMASCENE PROCESS PRODUCING A TAPERED WRITE POLE WITH A NON-MAGNETIC SPACER AND NON-MAGNETIC BUMP - A magnetic write head having a tapered trailing edge and having a magnetic layer formed over a trailing edge of the write pole at a location recessed from the ABS, the magnetic layer being separated from the trailing edge of the write pole by a thin non-magnetic layer. The thin non-magnetic layer is preferably sufficiently thin that the magnetic layer can function as a portion of the write pole in a region removed from the ABS. A trailing magnetic shield is formed over the write pole and is separated from the write pole by a non-magnetic trailing gap layer. A non-magnetic spacer layer can be formed over the magnetic layer to provide additional separation between the magnetic layer and the trailing magnetic shield. | 06-23-2011 |
20110233167 | METHOD FOR MANUFACTURING A PERPENDICULAR MAGNETIC WRITE HEAD HAVING A TAPERED WRITE POLE - A method for manufacturing a magnetic write head having a write pole with a tapered leading edge and a tapered trailing edge. The method includes forming a non-magnetic bump player over a surface, forming a mask over the non-magnetic bump layer and performing a first ion milling to form a tapered back edge on the non-magnetic bump layer. A magnetic write pole material is then deposited over the surface and over the non-magnetic bump layer. Then a non-magnetic step structure is formed over the magnetic write pole material and an ion milling is performed to form a taper on the upper surface of the write pole. The write pole lateral dimensions can then be defined, and a non-magnetic bump formed over the tapered portion of the upper surface of the write pole. Another ion milling can then be performed to extend the taper of the surface of the write pole. | 09-29-2011 |
20110261485 | MAGNETIC WRITE HEAD HAVING A WRAP AROUND TRAILING SHIELD WITH AN ASYMETRICAL SIDE GAP - A magnetic write head having a magnetic write pole with a wrap around magnetic trailing shield. The wrap around magnetic trailing shield is separated by a first non-magnetic side gap at a first side of the write pole and by a second non-magnetic side gap at a second side of the write pole. The first second non-magnetic side gap is larger than the first non-magnetic side gap and is preferably at least twice the thickness of the first non-magnetic side gap. This design provides additional protection adjacent track interference at one side of the write pole and additional protection against magnetic write field loss at the other side of the write pole. | 10-27-2011 |
20110262774 | METHOD FOR MANUFACTURING A MAGNETIC WRITE HEAD HAVING A WRAP AROUND TRAILING MAGNETIC SHIELD WITH A TAPERED SIDE GAP - A magnetic write head having write pole and a wrap-around-trailing magnetic shield having side portions that are separated from the write pole by tapered non-magnetic side gap layers. The tapered non-magnetic side gap layers provide a non-magnetic side gap width that increases with increasing distance from the ABS, thereby providing optimal protection against adjacent track interference at the ABS while minimizing write field loss to the shield in regions away from the ABS. | 10-27-2011 |
20120094009 | MAGNETIC WRITE HEAD FABRICATION WITH INTEGRATED ELECTRICAL LAPPING GUIDES - Methods of fabricating magnetic write heads and electrical lapping guides (ELG's) using a split gap deposition process is described. A removal process is performed on a magnetic material to define a main write pole and to define a corresponding ELG for the main write pole. A first non-magnetic gap layer is deposited. A mask and liftoff process is performed to deposit an electrically conductive material on the first gap layer disposed along a front edge of the ELG. A second non-magnetic gap layer is then deposited and a shield is fabricated for the write pole. | 04-19-2012 |
20120106002 | MAGNETIC WRITE HEADS WITH BI-LAYER WRAP AROUND SHIELDS HAVING DISSIMILAR SHIELD LAYER WIDTHS - Magnetic write heads and corresponding fabrication methods for bi-layer wrap around shields resulting in dissimilar shield layer widths are disclosed. A gap structure is formed around a main write pole for a magnetic write head. A wrap around shield for the main write pole is fabricated to include a first magnetic layer proximate to the main write pole and a second magnetic layer on the first magnetic layer. A width of the first magnetic layer is less than the width of the second magnetic layer, and back edges of the first and second magnetic layers are coplanar. Further, a throat height of the wrap around shield is maintained between the first and the second magnetic layers because their back edges are coplanar. | 05-03-2012 |
20120107645 | METHOD FOR MANUFACTURING A SHORT FLARE DEFINITION BY ADDITIVE PROCESS FOR PERPENDICULAR HEAD - A method for manufacturing a magnetic write head for perpendicular magnetic recording. The method includes forming a write pole, and then depositing a refill layer. A mask structure can be formed over the writ pole and refill layer, the mask structure being configured to define a stitched pole. An ion milling or reactive ion milling can then be performed to remove portions of the refill layer that are not protected by the mask structure. Then a magnetic material can be deposited to form a stitched write pole that defines a secondary flare point. The stitched pole can also be self aligned with an electrical lapping guide in order to accurately locate the front edge of the secondary flare point relative to the air bearing surface of the write head. | 05-03-2012 |
20120154951 | METHOD FOR MANUFACTURING A PERPENDICULAR MAGNETIC WRITE POLE HAVING A WRITE POLE AND TRAILING SHIELD WITH A TAPERED TRAILING GAP - A method for manufacturing a magnetic write head having a that has a write pole with a tapered trailing edge in a pole tip region, and a trailing shield that has a leading edge that tapers away from the write pole at an angle that is greater than that taper angle of the trailing edge of the write pole. The magnetic head has a step feature with a front edge that is recessed from the ABS. In one embodiment a magnetic wedge is formed over the tapered surface of the write pole. In another embodiment, a non-magnetic bump is formed over a first tapered portion of the write pole adjacent to the front edge of the step feature, and a non-magnetic wedge is formed over a second tapered portion of the write pole and extends from the non-magnetic bump to the air bearing surface. | 06-21-2012 |
20130020204 | MAGNETIC WRITE HEAD HAVING AN ELECTROPLATED WRITE POLE WITH A LEADING EDGE TAPER - A method for manufacturing a magnetic write head having a tapered leading edge. The method includes depositing a sacrificial non-magnetic layer to a thickness that is at least as great as the thickness of the write pole to be formed. The sacrificial non-magnetic layer is then masked and ion milled so as to form a tapered edge on the sacrificial non-magnetic layer that extends through the thickness of the non-magnetic fill layer. A magnetic material is then deposited and planarized by chemical mechanical polishing. The remaining magnetic material forms the entirety of the magnetic write pole so that there is no need to deposit additional magnetic layers further construct the write pole. | 01-24-2013 |
20130082027 | METHOD FOR MANUFACTURING A PERPENDICULAR MAGNETIC WRITE HEAD USING NOVEL REACTIVE ION ETCHING CHEMISTRY - A method for manufacturing a magnetic write head for magnetic data recording. The method includes forming a depositing a magnetic write pole material and forming a mask structure over the write pole material that includes a polymer mask under-layer, a dielectric hard mask formed over the polymer mask under-layer and a photoresist mask formed over the dielectric hard mask. The image of the photoresist mask is transferred onto the underlying dielectric hard mask and then a reactive ion etching is performed to transfer the image of the dielectric hard mask onto the polymer mask under-layer. This reactive ion etching is performed in an atmosphere chemistry that includes both an oxygen containing gas and a nitrogen containing gas. | 04-04-2013 |
20140146421 | PERPENDICULAR MAGNETIC WRITE HEAD HAVING A HULL SHAPED STITCHED POLE - A magnetic write head having a stitched magnetic pole (also referred to as a shaping layer) for conducting magnetic flux to the pole tip portion of a magnetic write pole. The stitched magnetic pole has a shape so as to be thicker in a central region that is aligned with the pole tip of the write pole and is thinner a its outer sides. This shape helps to channel magnetic flux to the pole tip portion of the write pole while maintaining sufficient pole surface area for high data rate recording. | 05-29-2014 |
20140168823 | MAGNETIC WRITE HEAD HAVING A RESIDUAL SHIELD SEED LAYER FOR REDUCING OVERWRITING - A magnetic write head having a write pole and a trailing, wrap-around magnetic shield formed over the write pole and separated from the write pole by a non-magnetic trailing gap layer and non-magnetic side gap layers. The write head includes a remnant magnetic seed layer, that while being used to facilitate electroplating of the magnetic shield, is left intentionally extending beyond the back edge of the magnetic shield. This extended portion of the magnetic seed layer acts as a shunt for magnetic flux and prevents data erasure due to over-writing. | 06-19-2014 |
20140170774 | METHOD FOR MANUFACTURING A MAGNETORESISTIVE SENSOR - A method for manufacturing a magnetic sensor that allows the sensor to be constructed with a very narrow track width and with smooth, well defined side walls. A tri-layer mask structure is deposited over a series of sensor layers. The tri-layer mask structure includes an under-layer, a Si containing hard mask deposited over the under-layer and a photoresist layer deposited over the Si containing hard mask. The photoresist layer is photolithographically patterned to define a photoresist mask. A first reactive ion etching is performed to transfer the image of the photoresist mask onto the Si containing hard mask. The first reactive ion etching is performed in a chemistry that includes CF | 06-19-2014 |
20140175576 | SHAPE ENHANCED PIN READ HEAD MAGNETIC TRANSDUCER WITH STRIPE HEIGHT DEFINED FIRST AND METHOD OF MAKING SAME - The present invention generally relates to a magnetic sensor in a read head having a hard or soft bias layer that is uniform in thickness within the sensor stack. The method of making such sensor is also disclosed. The free layer stripe height is first defined, followed by defining the track width, and lastly the pinned layer stripe height is defined. The pinned layer and the hard or soft bias layer are defined in the same process step. This approach eliminates a partial hard or soft bias layer and reduces potential instability issues. | 06-26-2014 |
20140217060 | METHOD FOR DEFECT REDUCTION IN MAGNETIC WRITE HEAD FABRICATION - Write heads may be formed by reactive ion etching (RIE) a dielectric mask and then reactive ion etching a polymeric underlayer. The first RIE affects the second RIE. The first portion of the first RIE process is performed with a ratio of CF | 08-07-2014 |
20140313613 | Magnetic Write Head Having A Coil Adjacent To The Main Pole - Approaches for a magnetic write head having an adjacent coil architecture, wherein a coil turn is fabricated immediately adjacent to the writer main pole. The adjacent portion essentially lies on the main pole, except for a very thin layer of insulation atomically layered in between. The adjacent coil portion is also substantially closer o the wrap-around shield in comparison with conventional coil configurations. Further, the other upper coil portions may be fabricated to essentially lie on the stitch pole, again except for a very thin atomic layer deposited layer of insulation layered between. This adjacent coil configuration provides a writer coil configuration that concentrates the coil structure significantly closer to the main pole surface, as well as concentrates more of the coil structure closer to the main pole tip, providing for a more efficient and faster write head. | 10-23-2014 |
20150029611 | STITCHED POLE HAVING A TAPERED TIP - In one general embodiment, a magnetic head includes a stitch pole; and a main pole formed adjacent the stitch pole, wherein an end region of the stitch pole closest to an air bearing surface of the head tapers towards the main pole. In another general embodiment, a magnetic head includes a stitch pole being a laminate of at least two magnetic layers separated b a nonmagnetic layer; and a main pole formed adjacent the stitch pole. An end region of the stitch pole closest to an bearing surface of the bead tapers towards the main pole. An average angle of the taper of the end region of the stitch pole is between about 20 and about 45 degrees. Such head may be implemented in a data storage system. | 01-29-2015 |