The Role of Slider/Disk Roughness in 1 Tb/in.2 Magnetic Recording

Abstract

To achieve 1 Tb/in.2 magnetic recording areal density, the head/disk spacing, or the flying height of the slider, has become so small that both the disk surface roughness and the slider air-bearing surface roughness need to be considered. In this region, the intermolecular force and the contact force become more significant due to the roughness of the two surfaces. This article targets two points: 1) slider/disk roughness effects on intermolecular force and 2) slider/disk roughness requirement for 1 Tb/in.2 areal density. A probability model is built to simulate the intermolecular force and the contact force, and these two forces are introduced into the modified compressible Reynolds equation governing the air-bearing pressure of the slider. The equation is solved by the finite volume method based on an unstructured triangle-based mesh. The simulation results show that in 1 Tb/in.2 areal density magnetic recording the effects of slider/disk roughness on the intermolecular force are negligible. Smaller R a values will have fewer effects on flying performance.