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Motivated by the predictions of mergence of magnetism in first-principle calculations, we perform the magnetic characterization of our samples.
Azad, A. K., Kim, J. H. & Irvine, J. T. S. Structural, electrochemical and magnetic characterization of the layered-type PrBa0.5Sr0.5Co2O5+δ perovskite.
The magnetic characterization of all the samples was carried out by Quantum Design MPMS-XL instrument.
The thermal and magnetic characterization of the compound has been also accomplished.
Koh A.L., Hu W., Wilson R.J., Earhart C.M., Wang S.X. and Sinclair R. Structural and Magnetic Characterization of High Moment Synthetic Antiferromagnetic Nanoparticles Fabricated Using Self-Assembled Stamps.
Koh A.L., Hu W., Wilson R.J., Earhart C.M., Wang S.X., and Sinclair R. Structural and magnetic characterization of high moment synthetic antiferromagnetic nanoparticles fabricated using self-assembled stamps.
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Magnetic characterizations of the samples were performed by means of different magnetometers, according to the investigated temperature range.
Table 4 compares the magnetic characterizations of the two separate TDA-SIPP preparations.
Spin-polarized scanning tunneling microscopy and spectroscopy (spin-STM/S) have been successfully applied to magnetic characterizations of individual nanostructures.
DC magnetic characterizations of stock nanoparticles were performed with an MPMS-7 SQUID magnetometer system (Quantum Design, San Diego, CA, USA).
As shown in Figure 6, results of magnetic characterization show obvious ferromagnetic behavior for both compositions.
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