A tunneling magnetoresistive (TMR) read head for magnetic tape has a tape-bearing surface (TBS) and includes a first magnetic shield, a first gap layer on the first shield, a TMR sensor on the first gap layer and recessed from the TBS, a second gap layer on the TMR sensor, a second magnetic shield on the second gap layer, and a magnetic flux guide between the first and second gap layers between the TBS and the recessed TMR sensor. The first gap layer has an insulating portion with an edge at the TBS and a non-magnetic electrically-conducting portion recessed from the TBS, with the TMR sensor located on the conductive portion. The sense current is between the two shields. An insulating isolation layer may be located between the first gap layer and the first shield layer with the sense current being between the second shield and the first gap layer.

An apparatus, in accordance with one aspect of the present invention, includes a module having a media facing surface. The module comprises the following components. A sensor is recessed from the media facing surface. A flux guide extends from the media facing surface toward the sensor. A soft bias layer is positioned on opposite sides of the sensor in a cross-track direction. A stabilization layer is located above the sensor, flux guide and soft bias layer for stabilizing the soft bias layer. A nonmagnetic exchange break layer is positioned above the sensor and the flux guide for magnetically decoupling the sensor and the flux guide from the stabilization layer.

A magnetic sensor with increased sensitivity, lower noise, and improved frequency response is described. The sensor's free layer is ribbon shaped and is closely flanked at each long edge by a ribbon of magnetically soft, high permeability material. Side stripes of soft magnetic material absorb external field flux and concentrate the flux to flow into the sensor's edges to promote larger MR sensor magnetization rotation. Side stripes are located in the plane of the free layer at a maximum distance of 0.1 microns from each side of the free layer. The free layer has a width <300 nm, a length of >1 micron, and an aspect ratio (thickness/width) of at least 5. Preferably, M.sub.filmt.sub.film>M.sub.freet.sub.free, where M.sub.film and M.sub.free are the magnetization of the soft magnetic layers and free layer, respectively, and f.sub.film and t.sub.free are the thickness of the soft magnetic layers and free layer, respectively.

A tunneling magnetoresistive (TMR) read head for magnetic tape has a tape-bearing surface (TBS) and includes a first magnetic shield, a first gap layer on the first shield, a TMR sensor on the first gap layer and recessed from the TBS, a second gap layer on the TMR sensor, a second magnetic shield on the second gap layer, and a magnetic flux guide between the first and second gap layers between the TBS and the recessed TMR sensor. The first gap layer has an insulating portion with an edge at the TBS and a non-magnetic electrically-conducting portion recessed from the TBS, with the TMR sensor located on the conductive portion. The sense current is between the two shields. An insulating isolation layer may be located between the first gap layer and the first shield layer with the sense current being between the second shield and the first gap layer.