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| Azevedo, Nuno Monteiro |
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Kim, Jun-Young
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Publications (4/4 displayed)
- 2023Half-Metallic Bandgap Measurement Using Circularly Polarized Infrared Light
- 2023Half-Metallic Bandgap Measurement Using Circularly-Polarised Infrared Light
- 2018Magneto-optical detection of spin accumulation under the influence of mechanical rotation
- 2018Perpendicular Magnetic Anisotropy in Heusler Alloy Films and Their Magnetoresistive Junctionscitations
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article
Half-Metallic Bandgap Measurement Using Circularly Polarized Infrared Light
Abstract
<jats:p> One avenue toward next-generation spintronic devices is to develop half-metallic ferromagnets with 100% spin polarization and Curie temperature above room temperature. Half-metallic ferromagnets have unique density of states, where the majority spins are metallic but the minority spins are semiconducting with the Fermi level lying within an energy gap. To date, the half-metallic bandgap has been predominantly estimated using Jullière’s formula in a magnetic tunnel junction or measured by the Andreev reflection at low temperature, both of which are very sensitive to the surface/interface spin polarization. Alternative optical methods such as photoemission have also been employed but with a complicated and expensive setup. In this study, we developed and optimized a new technique to directly measure the half-metallic bandgap by introducing circularly polarized infrared light to excite minority spins. The absorption of the light represents the bandgap under a magnetic field to saturate the magnetization of a sample. This technique can be used to provide simple evaluation of a half-metallic film. </jats:p>