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Deposition of NiFe alloy

NiFe has been deposited in the Sputter System (Lesker) here at Nanolab. Below you will find some results of varying the deposition parameters in that particular setup. You can find more information on the process parameters used by others in the Process Log in LabManager.

Film quality optimization

By Bjarke Thomas Dalslet @Nanotech.dtu.dk

The Lesker CMS 18 sputter system can produce films in a wide range of qualities. The quality of a film depends strongly on the substrate (lattice matching), but also on the energy the sputtered material can utilize for annealing.

Strain estimations was done on 30 nm Ni${\displaystyle _{81}}$Fe${\displaystyle _{19}}$ thin films using low angle x-ray diffraction, for various substrates. It was found that the strain of the film influenced the resistance (R) and anisotropic magneto resistance (AMR) of the films (this relationship is also documented in literature); A Ta interface layer reduced R and increased AMR on both Si and SiO${\displaystyle _{2}}$ substrates while reducing strain.

This study was then done on 30 nm Ni${\displaystyle _{81}}$Fe${\displaystyle _{19}}$ thin films deposited on 3 nm Ta on top of a SiO${\displaystyle _{2}}$ substrate, using R and AMR as an indication of strain. As seen in the tables, applying a substrate bias increases AMR and conductance (1/R). An equivalent effect is seen when heating the substrate during deposition. This heating can also be done after deposition without loosing the effect.

Stress in films deposited at high temperature

In 2017, Radu Malureanu measured a tensile stress of about 100 MPa on thin films of Invar deposited at 600 °C. Read more about stress in thin films deposited with the Lesker sputter system here.