Slider

Abstract: A method and system for providing an energy assisted magnetic recording (EAMR) disk drive are described. The EAMR disk drive includes a slider, at least one EAMR transducer on the slider, and at least one laser coupled with the slider. The slider has a slider back side, a trailing face, and an intersection. The trailing face and the slider back side meet at the intersection. The trailing face makes an angle different from ninety degrees with the slider back side at the intersection. The laser(s) have an optical axis and are optically coupled with the trailing face of the slider. The optical axis is substantially perpendicular to the intersection and parallel to the slider back side.

Abstract: An optical disk drive has an air-beating slider formed of transparent material and located adjacent the surface of the optical disk. In the manner of conventional magnetic disk drives, the slider is maintained in close relationship with the disk surface by an air-bearing generated by the rotating disk and the shape of the slider's air-bearing surface (ABS). The slider has a lens section located on its back side opposite the side with the ABS. In the preferred embodiment the lens section is at least a hemisphere and the lens section and slider are formed of the same material and thus have the same index of refraction, n. The lens section and slider are transparent to light from the disk drive's light source and together form a super-hemispherical solid immersion lens (SIL). The slider's ABS is maintained within one wavelength of the surface of the optical disk. The light from the disk drive's light source is focused by the super-hemispherical SIL to a point on the slider ABS. The light is coupled through the air-bearing gap via the evanescent field to the data layer on the optical disk. The focused spot size on the disk data layer is thus reduced by a factor of n 2 from what it would otherwise be without the super-hemispherical SIL provided by the lens section and transparent slider.

Abstract: Some embodiments provide a novel user interface (UI) tool that is a unified slider control, which includes multiple sliders that slide along a region. The region is a straight line in some embodiments, while it is an angular arc in other embodiments. In some embodiments, the unified slider control is used in a media editing application to allow a user to modify several different properties of the image by moving several different sliders along the region. Each slider is associated with a property of the image. A position of the slider in the region corresponds to a value of the property associated with the slider.

Abstract: A device includes: a first component and a second component coupled to one another by a pivot member and being movable relative to one another between an open position in which the first component and the second component are in the same plane and a folded position; a first slider coupled to the first component and a second slider coupled to the second component; and a flexible membrane coupled to the first slider and the second slider, the flexible membrane being exposed in the folded position; wherein the first component and the second component are coupled to one another to maintain the flexible membrane at a constant length when the flexible membrane is moved between the open position and the folded position.