Abstract: A test apparatus can test a read head and/or a disk. The test apparatus includes a rotatable spindle adapted to hold the disk, and a holder oriented to hold the read head with its air bearing surface adjacent the major surface of the disk during testing. The holder includes a channel with a first side wall. The channel defines a channel longitudinal axis parallel to the first side wall. The channel also defines a lateral direction that is normal to the first side wall. A first gas jet points into the channel and impinges upon a top face of the read head.

Abstract: A test apparatus can test a read head and/or a disk. The test apparatus includes a rotatable spindle adapted to hold the disk, and a holder oriented to hold the read head with its air bearing surface adjacent the major surface of the disk during testing. The holder includes a channel with a first side wall. The channel defines a channel longitudinal axis parallel to the first side wall. The channel also defines a lateral direction that is normal to the first side wall. A first gas jet points into the channel and impinges upon a top face of the read head.

Abstract: An apparatus and a method for measuring very small separations between a transparent or semi-transparent first body and a second body is disclosed. A light source produces light that is split into two distinct paths. One path is directed through the first body at two locations, one where it reflects from the interface at the separation to be measured, and another where the second body does not affect the reflection. The second path is directed at a frequency shifter. The two paths are recombined and interferometric variations of intensity are detected. The difference in phase between the measurement and reference areas with the second body not present, is subtracted from the difference in phase between the measurement and reference areas with the second body present. The difference in differences yields the phase change that occurs when the second body is introduced. The separation is calculated based on this phase change.

Abstract: An apparatus and a method for measuring very small separations between a transparent or semi-transparent first body and a second body, wherein one or more light sources produce light that is split into two distinct paths. One path is directed through the first body at two locations, one where it reflects from the interface at the separation to be measured, and another where the second body does not affect the reflection. The second path is directed at a frequency shifter, which shifts the frequency of the light. The two paths are recombined and interfereometric variations of intensity, substantially at the frequency of the shifter, are detected. The difference in phase between the measurement and reference areas with the second body not present is subtracted from the difference in phase between the measurement and reference areas with the second body present. The difference in differences yields the phase change that occurs when the second body is introduced.