摘要:
A method of manufacturing a magnetic write head that provides improved pole critical dimension control, such as improved track width control (improved sigma) and improved flare point control. The method involves a combination of several process improvements, such as photolithographically patterning a P2 pole tip defining photoresist frame using a zero print bias and also using a small flash field. The method also involves the use of a non-reactive ion etch to notch the first pole (P1) using the second pole (P2) as a mask.
摘要:
A method of manufacturing a magnetic write head that provides improved pole critical dimension control, such as improved track width control (improved sigma) and improved flare point control. The method involves a combination of several process improvements, such as photolithographically patterning a P2 pole tip defining photoresist frame using a zero print bias and also using a small flash field. The method also involves the use of a non-reactive ion etch to notch the first pole (P1) using the second pole (P2) as a mask.
摘要:
After defining the P2 pole of a magnetic read head, alumina is deposited over it and planarized by CMP, with the portion of the alumina overlaying the ABS region of the P2 pole subsequently being masked by a photoresist layer and with the portions of the alumina overlaying the flare area, back gap region, and center tap regions of the P2 pole not being masked. A reactive ion mill is performed to expose the flare area, back gap region, and center tap regions of the P2 pole by removing the alumina over these portions, so that subsequent steps such as forming a layer of coiled conductors, forming a return pole, and forming stud connections along with removing the respective seed layers can be executed with the ABS region protected by the alumina and with the flare area, back gap region, and center tap region exposed.
摘要:
Methods for creating a write head by forming a bump after the top pole is formed are provided. In one embodiment, a bottom pole is created out of a first layer. A non-magnetic gap material is applied to the surface of the wafer. A top pole is created out of a second layer. After creating the top pole, a bump is created. The bump is used to protect at least a portion of the first layer while etching to create a stray flux absorber.
摘要:
A magnetic disk drive head is disclosed including a write head, which includes a P1 layer having a pedestal portion, a gap layer formed on the P1 layer, and a P2 layer formed on the gap layer. The P1 layer includes a shoulder formation having a neck portion and a beveled portion. Also disclosed is a disk drive having a write head with a P1 layer with shoulder formation, and a method for fabricating a write pole for a magnetic recording head having a P1 layer with shoulder formation.
摘要:
A method and apparatus for integrating a stair notch and a gap bump at a pole tip in a write head is disclosed. A protective plated layer is formed over the bump to prevent the bump form being damaged during formation of the notch at the pole tip. The flux from the second pole outside of the track will be effectively channeled to the first pole piece under the alumina bump.
摘要:
A magnetic head for use in a perpendicular recording system having a novel shield structure that provides exceptional magnetic shielding from extraneous magnetic fields such as from a write coil, shaping layer or return pole of the write head. The shield structure is constructed to have a bottom or leading surface that is generally coplanar with the bottom or leading surface of the shaping layer, but all or a portion of the shield structure is not as thick as the shaping layer so as to have a top surface that does not extend to the same elevation (in a trailing direction) as that of the shaping layer. Making the shields extend to a lower level than the shaping layer improves magnetic performance by reducing flux leakage from the write pole, and also provides manufacturing advantages, such as during the manufacturing of the write pole. These manufacturing advantages include the advantage of having the shields covered with a protective layer of, for example, alumina during the ion milling of the write pole.
摘要:
A method of fabrication of the write head of a perpendicular recording head allows for production of P3 pole tips of width less than 200 nm (200×10−9 meters). The method includes fabricating the P2 flux shaping layer, depositing the P3 layer, depositing a layer of ion-milling resistant material, depositing at least one sacrificial layer, shaping the P3 layer into P3 pole tip, removing the at least one sacrificial layer to leave the P3 pole tip, and encapsulating the P3 pole tip.
摘要:
A multi-step process for notching the P1 pole of the write head element of a magnetic head. In a first step following the fabrication of the P2 pole tip, a layer of protective material is deposited on the approximately vertical side surfaces of the P2 pole tip. Thereafter, a first ion milling step, utilizing a species such as argon, is performed to mill through the write gap layer and to notch into the P1 pole layer therebelow. The removal of redeposited material from the side surfaces of the P2 pole tip is thereafter accomplished and the protective material formed on the side surfaces of the P2 pole tip protects the P2 pole tip during the redeposition clean up step. Thereafter, the protective material is removed from the side surfaces of the P2 pole tip, and a second ion milling step is performed to further notch the P1 pole material.
摘要:
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.