Patent application number | Description | Published |
20090057160 | INTERLEAVED HELICAL COILS ON PERPENDICULAR HEADS - A method for manufacturing a write head with a helical coil having a very small and well controlled spacing between adjacent coil leads. The method includes forming a first set of coil leads, then conformally depositing a thin layer of electrically insulating material such as alumina over the first set of coil leads and over the substrate. An electrically conductive seed layer is then deposited over the thin layer of non-magnetic, electrically insulating material An electrically conductive material such as Cu is then deposited by electroplating in order to form a second set of electrically conductive leads interspersed within the first set of electrically conductive leads, each of the second set of leads being separated from the second set of leads by a portion of the thin layer of non-magnetic, electrically insulating material. | 03-05-2009 |
20090168260 | Layered return poles for magnetic write heads - Methods and structures for the fabrication of both thin film longitudinal and perpendicular write heads are disclosed. A unique feature of these write heads is the inclusion of layered return poles, which comprise alternating layers of 22/78 and 80/20 NiFe alloys. The alternating layers also vary in thickness, the 22/78 NiFe layers having a nominal thickness of 1500 angstroms and the 80/20 NiFe layers having a nominal thickness of about 75 angstroms. Head efficiency and signal to noise ratios are significantly improved in heads having layered return pole construction. | 07-02-2009 |
20100157471 | WRITE HEAD WITH DIFFERENT UPPER AND LOWER YOKE LENGTHS AND METHODS FOR MAKING THE SAME - According to one embodiment, a system comprises an upper yoke having a first length defined between a pole tip thereof and a back gap thereof. In addition, the system includes a lower yoke having a second length defined between a pole tip thereof and a back gap thereof, the second length being greater than the first length. Also, the system includes coil turns in the upper and lower yokes. Additional systems and methods are also presented. | 06-24-2010 |
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 |
20110146062 | METHOD FOR MANUFACTURING A MAGNETIC WRITE HEAD HAVING A WRAP AROUND SHIELD THAT IS MAGNETICALLY COUPLED WITH A LEADING MAGNETIC SHIELD - A method for manufacturing a magnetic write head having a leading magnetic shield and a trailing magnetic shield that are arranged to prevent the lost of magnetic write field to the trailing magnetic shield. The write head includes a non-magnetic step layer that provides additional spacing between the trailing magnetic shield and the write pole at a region removed from the air bearing surface. | 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 |
20120162821 | WRITE HEAD WITH ROTATIONAL WRITE FIELD - The present disclosure describes various ways to achieve a rotational write field using a single coil. For example, a rotational write field can be achieved with a single coil by using different yoke lengths for different poles of a write element. Also described are ways to achieve a rotational write field with a single coil by varying the resistivity, saturation flux density, or pole width of the different poles of the write element of the present invention. The present disclosure also describes various ways to achieve a rotational write field using varied windings of a single coil. | 06-28-2012 |
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 |
20150056473 | SHIELD WITH UNIFORM MAGNETIC PROPERTIES FOR A PERPENDICULAR MAGNETIC RECORDING HEAD - Depositing a seed layer for a high-moment shield onto a write pole may have a deleterious effect on the magnetic response of the write pole. Instead, an amorphous separation layer may be deposited between the write pole and the seed layer. In one embodiment, the seed layer is formed directly on the amorphous layer. In addition to separating the seed layer from the write pole, the amorphous separation layer permits the seed layer to dictate the crystallographic orientation of the shield which is subsequently deposited on the magnetic head. That is, the amorphous layer provides a substrate that allows the seed layer to have a crystalline structure independent of the layers that were deposited previously. The amorphous separation layer may comprise an amorphous metal—e.g., NiNb or NiTa—or an insulative material—e.g., alumina or silicon dioxide. | 02-26-2015 |