Journal of Surface Science and Technology

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Investigation of Co/Ag Discontinuous Multilayers Prepared by UHV Electron Beam Evaporation


Affiliations
1 Electronic Materials Division, National Physical Laboratory, Dr. K. S. Krishnan Marg, New Delhi, 110012, India
     

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Co/Ag multilayers with 20 bilayers with the composition, Ti(5 nm) [Co(1 nm)/Ag(4 nm)]20 Ti(5 nm), were deposited by electron beam evaporation in ultrahigh vacuum and annealed under vacuum to develop the discontinuous multilayer structure. The as-deposited and annealed multilayers show (111) texturing with both Co and Ag (111) peaks in the XRD. The magnetization curves have ferromagnetic behaviour which gradually change on annealing above 200°C to show a reduction of squareness and an increase in coercivity, a reflection of the microstructural changes involving breaking of layers to form the so called discontinuous multilayer (DML) structure. Magnetoresistance curves show increase in MR value with annealing that attains a constant value above 300°C presumably due to stagnation in growth of Co grains which are surrounded by Ag atoms.

Keywords

Giant Magnetoresistance, Co/Ag Multilayers, Discontinuous Multilayers, Magnetizations.
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  • Investigation of Co/Ag Discontinuous Multilayers Prepared by UHV Electron Beam Evaporation

Abstract Views: 205  |  PDF Views: 2

Authors

V. K. Sankaranarayanan
Electronic Materials Division, National Physical Laboratory, Dr. K. S. Krishnan Marg, New Delhi, 110012, India
Om Prakash
Electronic Materials Division, National Physical Laboratory, Dr. K. S. Krishnan Marg, New Delhi, 110012, India
S. T. Lakshmikumar
Electronic Materials Division, National Physical Laboratory, Dr. K. S. Krishnan Marg, New Delhi, 110012, India

Abstract


Co/Ag multilayers with 20 bilayers with the composition, Ti(5 nm) [Co(1 nm)/Ag(4 nm)]20 Ti(5 nm), were deposited by electron beam evaporation in ultrahigh vacuum and annealed under vacuum to develop the discontinuous multilayer structure. The as-deposited and annealed multilayers show (111) texturing with both Co and Ag (111) peaks in the XRD. The magnetization curves have ferromagnetic behaviour which gradually change on annealing above 200°C to show a reduction of squareness and an increase in coercivity, a reflection of the microstructural changes involving breaking of layers to form the so called discontinuous multilayer (DML) structure. Magnetoresistance curves show increase in MR value with annealing that attains a constant value above 300°C presumably due to stagnation in growth of Co grains which are surrounded by Ag atoms.

Keywords


Giant Magnetoresistance, Co/Ag Multilayers, Discontinuous Multilayers, Magnetizations.