Abstract: A dual active element magnetoresistive tape read head uses weak biasing of active layers to reduce Barkhausen noise. The read head includes a first insulator layer. A first active magnetoresistive layer is built on the first insulator layer. A second insulator layer is built on the first active magnetoresistive layer. A second active magnetoresistive layer is on the second insulator layer. The second active magnetoresistive layer is magnetostatically coupled to the first active magnetoresistive layer. A third insulator layer is on the second active magnetoresistive layer. At least one insulator layer is a biasing layer comprised of an electrically nonconductive antiferromagnetic material.

Abstract: Reducing alignment errors between a read element and corresponding write elements permits narrower data tracks and, hence, greater data density on magnetic tape. A method for manufacturing a thin film tape head having multiple write elements and at least one read element corresponding to each write element is provided. Excess material is trimmed from each write element to align the write element with corresponding read elements. The excess material may be track trimmed using a focused ion beam.

Abstract: Reducing alignment errors between a read element and corresponding write elements permits narrower data tracks and, hence, greater data density on magnetic tape. A method for manufacturing a thin film tape head having multiple write elements and at least one read element corresponding to each write element is provided. Excess material is trimmed from each write element to align the write element with corresponding read elements. The excess material may be track trimmed using a focused ion beam.

Abstract: Reducing alignment errors between a read element and corresponding write elements permits narrower data tracks and, hence, greater data density on magnetic tape. A method for manufacturing a thin film tape head having multiple write elements and at least one read element corresponding to each write element is provided. Excess material is trimmed from each write element to align the write element with corresponding read elements. The excess material may be track trimmed using a focused ion beam.

Abstract: A dual active element magnetoresistive tape read head uses weak biasing of active layers to reduce Barkhausen noise. The read head includes a first insulator layer. A first active magnetoresistive layer is built on the first insulator layer. A second insulator layer is built on the first active magnetoresistive layer. A second active magnetoresistive layer is on the second insulator layer. The second active magnetoresistive layer is magnetostatically coupled to the first active magnetoresistive layer. A third insulator layer is on the second active magnetoresistive layer. At least one insulator layer is a biasing layer comprised of an electrically nonconductive antiferromagnetic material.

Abstract: A dual active element magnetoresistive tape read head uses weak biasing of active layers to reduce Barkhausen noise. The read head includes a first insulator layer. A first active magnetoresistive layer is built on the first insulator layer. A second insulator layer is built on the first active magnetoresistive layer. A second active magnetoresistive layer is on the second insulator layer. The second active magnetoresistive layer is magnetostatically coupled to the first active magnetoresistive layer. A third insulator layer is on the second active magnetoresistive layer. At least one insulator layer is a biasing layer comprised of an electrically nonconductive antiferromagnetic material.

Abstract: A bath for electroplating a high cobalt magnetic alloy material suitable for fabrication of thin film heads. The ternary cobalt-nickel-iron (CoNiFe) alloy electroplating bath composition produces a high cobalt magnetic thin film having high saturation magnetization, a magnetostriction coefficient that is substantially zero, and low coercivity. A process suitable for deposition of the soft magnetic material provides a thin film head where 4.pi.Ms is higher than 14K gauss, Hc is less than 20e, 1-10 MHZ permeability is near 1000, and has a near zero magnetostriction.