Observation of large exchange bias field in Mn rich NiMnAl Heusler alloy thin film

•B2 structured Ni-Mn-Al thin film has been successfully deposited by Co-sputtering.•Observation of large exchange bias field at low temperature.•Field induced FM ordering at temperature ~50 K.•The negative interface exchange constant.•AFM coupling between the coexisting phases. In the present work e...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2021-08, Vol.532, p.167964, Article 167964
Main Authors: Mishra, Archana, Dubey, Paritosh, Chandra, Ramesh, Srivastava, Saurabh Kumar
Format: Article
Language:English
Subjects:
AC susceptibility
Air conditioning
Aluminum
Anisotropy
Antiferromagnetic coupling
Antiferromagnetism
Bias
Cluster glass
Coercivity
Cooling
Cosputtering
Exchange bias
Exchanging
Ferromagnetism
Heusler alloys
Intermetallic phases
Low temperature
Magnetic fields
Magnetism
Manganese
Nickel
Room temperature
Temperature dependence
Thin film
Thin films
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Summary:•B2 structured Ni-Mn-Al thin film has been successfully deposited by Co-sputtering.•Observation of large exchange bias field at low temperature.•Field induced FM ordering at temperature ~50 K.•The negative interface exchange constant.•AFM coupling between the coexisting phases. In the present work exchange bias in Mn rich Ni-Mn-Al film has been studied. The film has been deposited by cosputtering from the targets of Ni, Mn and Al. It exhibits an antiferromagnetic B2 phase at room temperature. At low temperature, magnetization versus temperature (M-T) measurement shows a bifurcation among ZFC and FC curves. Hysteresis (M-H) loops measurements reveal the occurrence of exchange bias phenomenon at low temperature. Large HEB of 2.2 kOe for 20 kOe cooling field has been observed. There occurs a field induced ordering at temperature ~50 K reflected as coinciding ZFC (zero-field cooled) and FC (field-cooled) curves at large magnetic field. AC susceptibility measurement indicates the occurrence of cluster glass behaviour at low temperature. The exchange constant obtained from the best fit to the experimental data was found to be Ji ≈ −2 meV. The negative interface exchange constant indicates AFM coupling occurs among the coexisting phases. Exchange bias phenomenon may be associated to the coexistence of antiferromagnetic and ferromagnetic like ordering at low temperature. Cooling field dependence of HEB and coercive field HC indicate that an increase in anisotropy and growth of ferromagnetic clusters occurs at high magnetic field.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2021.167964