We present evidence for a new type of giant magnetoresistance in (111) cobalt-copper superlattices with atomically smooth interfaces. We propose that the lowered dimensionality of the structure leads to an enhancement of the scattering of conduction electrons from paramagnetic interfaces obeying a Langevin-like saturation at very high fields, well beyond the switching field of the Co layers. The findings help to explain similarities in magnetotransport behavior with recently reported granular systems as well as differences with antiferromagnetically coupled multilayers
A novel granular multilayer structure consisting of magnetic granular AgCo layers and non-magnetic C...
The giant magnetoresistance (GMR) and structure was investigated for electrodeposited Co/Cu multilay...
The interpretation of experiments on the effect of interface intermixing on the giant magnetoresista...
Co-Cu superlattices grown by MBE in the (111) orientation show weak or nonexistent interlayer exchan...
Co–Cu superlattices grown by MBE in the (111) orientation show weak or nonexistent interlayer exchan...
We have observed two forms of scaling in magnetotransport properties of (111) Co/Cu superlattices: (...
We report the observation of a large negative magnetothermal resistance in (111) Co/Cu superlattices...
We have measured the magnetoresistance of high-vacuum-sputtered Co/Cu(100) multilayers grown on Cu b...
Eckl T, Reiss G, Brückl H, Hoffmann H. Electronic transport properties and thickness dependence of t...
We have studied Co/Cu multilayers to understand the effect of the sample’s width on their magnetores...
Giant magnetoresistance measurements and x-ray diffractograms of both nickel-copper and cobalt-coppe...
Magnetic nanogranular materials, viz. systems made of nanosized magnetic (M) particles dispersed in ...
We report Giant Magnetoresistance (GMR) in Co/Cu multilayers deposited using high vacuum electron be...
We describe the MBE (Molecular Beam Expitaxy) technique for growth of the first transition metal mag...
We report on the structural and electrical characterization of electrodeposited Co/Cu multilayers gr...
A novel granular multilayer structure consisting of magnetic granular AgCo layers and non-magnetic C...
The giant magnetoresistance (GMR) and structure was investigated for electrodeposited Co/Cu multilay...
The interpretation of experiments on the effect of interface intermixing on the giant magnetoresista...
Co-Cu superlattices grown by MBE in the (111) orientation show weak or nonexistent interlayer exchan...
Co–Cu superlattices grown by MBE in the (111) orientation show weak or nonexistent interlayer exchan...
We have observed two forms of scaling in magnetotransport properties of (111) Co/Cu superlattices: (...
We report the observation of a large negative magnetothermal resistance in (111) Co/Cu superlattices...
We have measured the magnetoresistance of high-vacuum-sputtered Co/Cu(100) multilayers grown on Cu b...
Eckl T, Reiss G, Brückl H, Hoffmann H. Electronic transport properties and thickness dependence of t...
We have studied Co/Cu multilayers to understand the effect of the sample’s width on their magnetores...
Giant magnetoresistance measurements and x-ray diffractograms of both nickel-copper and cobalt-coppe...
Magnetic nanogranular materials, viz. systems made of nanosized magnetic (M) particles dispersed in ...
We report Giant Magnetoresistance (GMR) in Co/Cu multilayers deposited using high vacuum electron be...
We describe the MBE (Molecular Beam Expitaxy) technique for growth of the first transition metal mag...
We report on the structural and electrical characterization of electrodeposited Co/Cu multilayers gr...
A novel granular multilayer structure consisting of magnetic granular AgCo layers and non-magnetic C...
The giant magnetoresistance (GMR) and structure was investigated for electrodeposited Co/Cu multilay...
The interpretation of experiments on the effect of interface intermixing on the giant magnetoresista...