Patent ID: 9076465
Filing Date: 2015-07-07
Classification: G11B

Abstract:
1. A magnetic head for perpendicular magnetic recording, comprising: a medium facing surface facing a recording medium; a coil producing a magnetic field that corresponds to data to be written on the recording medium; a main pole having an end face located in the medium facing surface, the main pole allowing a magnetic flux that corresponds to the magnetic field produced by the coil to pass, and producing a write magnetic field for writing the data on the recording medium by means of a perpendicular magnetic recording system; a write shield formed of a magnetic material and having an end face located in the medium facing surface; and a first return path section formed of a magnetic material and located on a front side in a direction of travel of the recording medium relative to the main pole, wherein the end face of the write shield includes a first end face portion located on the front side in the direction of travel of the recording medium relative to the end face of the main pole, the first return path section connects the write shield and part of the main pole located away from the medium facing surface to each other so that a first space is defined by the main pole, the write shield and the first return path section, the coil includes at least one first coil element extending to pass through the first space, the main pole has a top surface lying at a front end in the direction of travel of the recording medium, the top surface of the main pole includes an inclined surface portion and a flat surface portion arranged in this order, the inclined surface portion being closer to the medium facing surface than the flat surface portion, the inclined surface portion has a first end located in the medium facing surface and a second end opposite to the first end, the inclined surface portion is inclined relative to the medium facing surface and a direction perpendicular to the medium facing surface such that the second end is located on the front side in the direction of travel of the recording medium relative to the first end, the flat surface portion extends substantially perpendicular to the medium facing surface, the write shield includes an inclined portion facing toward the top surface of the main pole, the inclined portion has a third end located in the medium facing surface and a fourth end opposite to the third end, the inclined portion is inclined relative to the medium facing surface and the direction perpendicular to the medium facing surface such that the fourth end is located on the front side in the direction of travel of the recording medium relative to the third end, the inclined surface portion is smaller than the inclined portion in length in the direction perpendicular to the medium facing surface, the inclined portion includes a first portion opposed to the inclined surface portion, and a second portion that is contiguous with the first portion and is located farther from the medium facing surface than is the first portion, the at least one first coil element includes one specific coil element, the one specific coil element includes an interposition part that is located closer to the medium facing surface than is the fourth end and interposed between the flat surface portion and the second portion, the interposition part has an end face facing toward the inclined portion, the magnetic head further comprises a first insulating film and a second insulating film, the first insulating film is interposed between the inclined surface portion and the first portion of the inclined portion, and between the end face of the interposition part and the second portion of the inclined portion, the second insulating film is interposed between the first insulating film and the second portion of the inclined portion, the first insulating film has a first front end located in the medium facing surface, the second insulating film has a second front end closest to the medium facing surface, and the second front end of the second insulating film is located at a distance from the medium facing surface.