The present disclosure relates to kiss lapping sliders after patterning an air bearing surface pattern, followed by applying a protective overcoat to the air bearing surface. The present disclosure also involves related sliders.

A hard disk drive includes a cover coupled to a base deck to create an enclosure. The hard disk drive further includes data-recording components and non-data-recording components positioned within the enclosure. At least one of the non-data-recording components includes a surface with a surface treatment that promotes condensation of water vapor.

A hard disk drive includes a cover coupled to a base deck to create an enclosure. The hard disk drive further includes data-recording components and non-data-recording components positioned within the enclosure. At least one of the non-data-recording components includes a surface with a surface treatment that promotes condensation of water vapor.

Approaches to patching a leaky hermetically-sealed device include the use of a laminate rework patch that includes an adhesive tape layer, an aluminum sheet layer, and an outer cover layer, and whereby a viscous adhesive is injected or otherwise applied between the patch and the device leak location, over a layer of primer material, to fill the leak and stop the leakage of gas from inside the device. The thickness of the viscous adhesive, and thus the curing time and temperature of the viscous adhesive, can be managed by way of the thickness of the adhesive tape layer.

A folded lasing cavity comprises at least one bend. The folded lasing cavity is disposed on and configured to emit light along a substrate-parallel plane. An etched facet is on an emitting end of the folded lasing cavity and an etched mirror is on another end of the folding lasing cavity. An etched shaping mirror redirects light received from the etched facet in a direction normal to the substrate-parallel plane.

A disk hub is configured to retain a magnetic recording medium including an annulus shape and a layer configured for magnetic recording. The disk hub includes a base plate portion for supporting an inner diameter area of the magnetic recording medium and a stem portion on the base plate portion. The base plate portion is configured to support the inner diameter area of the magnetic recording medium. The stem portion includes a first section with a frustoconical shape and a second section extending between the first section and the base plate portion. A circumference of the second section increases in a direction away from the base plate portion, and a circumference of the first section decreases in the direction away from the base plate portion. The disk hub includes an electrostatic dissipative material. The electrostatic dissipative material can be infused with carbon nanotubes.

A folded lasing cavity comprises at least one bend. The folded lasing cavity is disposed on and configured to emit light along a substrate-parallel plane. An etched facet is on an emitting end of the folded lasing cavity and an etched mirror is on another end of the folding lasing cavity. An etched shaping mirror redirects light received from the etched facet in a direction normal to the substrate-parallel plane.

According to one embodiment, a method of manufacturing a lift tab of a suspension assembly, includes: forming a first mask on a first surface of a plate-shaped base material; forming a second mask smaller than the first mask by a width less than or equal to a plate thickness of the base material, on a second surface of the base material, which is on an opposite side to the first surface, to oppose the first mask; etching the base material from both surface sides through the first mask and the second mask, to cut out the base material; and subjecting the cut-out base material to a bending process to form the lift tab.

An apparatus is provided, including a base-deck floor; a base-deck frame, overlying the base-deck floor; a top cover, overlying the base-deck frame; and an affixing means operable to attach the base-deck frame to the base-deck floor, wherein the base-deck frame is operable to be fastened to both the base-deck floor and the top cover to provide a housing for a hard disk drive. A method is also provided, including assembling at least a portion of a hard disk drive assembly on a base-deck floor; affixing a base-deck frame to the base-deck floor; and securing a top cover to the base-deck frame.

The present disclosure generally relates to a dual free layer (DFL) read head. In one embodiment, a dual free layer (DFL) read head, comprising: a tunnel magneto resistance (TMR) sensor disposed at a media facing surface (MFS); soft bias (SB) side shields disposed adjacent to the TMR sensor at the MFS; and a rear soft bias (RSB) disposed adjacent to the TMR sensor recessed from the MFS. The RSB has a nonmagnetic cap, the nonmagnetic cap comprising: a first nonmagnetic cap layer; and a second nonmagnetic cap layer, wherein an etch selectivity of the first nonmagnetic cap layer to the second nonmagnetic cap layer is a ratio of a:b in a first chemistry and a ratio of x:y in a second chemistry, wherein a is greater than b, and y is greater than x, and the second nonmagnetic cap layer is disposed on the first nonmagnetic cap layer.