Frank J. Owens scite author profile

The search for ferromagnetism above room temperature in dilute magnetic semiconductors has been intense in recent years. We report the first observations of ferromagnetism above room temperature for dilute (<4 at.%) Mn-doped ZnO. The Mn is found to carry an average magnetic moment of 0.16 mu(B) per ion. Our ab initio calculations find a valance state of Mn(2+) and that the magnetic moments are ordered ferromagnetically, consistent with the experimental findings. We have obtained room-temperature ferromagnetic ordering in bulk pellets, in transparent films 2-3 microm thick, and in the powder form of the same material. The unique feature of our sample preparation was the low-temperature processing. When standard high-temperature (T > 700 degrees C) methods were used, samples were found to exhibit clustering and were not ferromagnetic at room temperature. This capability to fabricate ferromagnetic Mn-doped ZnO semiconductors promises new spintronic devices as well as magneto-optic components.

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Density functional calculations of bond dissociation energies for NO2 scission in some nitroaromatic molecules

Rice

Sahu

Owens

2002

Journal of Molecular Structure: THEOCHEM

264

193

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Room temperature spintronic material—Mn-doped ZnO revisited

Sharma

Gupta

Owens³

et al. 2004

Journal of Magnetism and Magnetic Materials

148

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Calculation of energy barriers for bond rupture in some energetic molecules

Owens

1996

Journal of Molecular Structure: THEOCHEM

144

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Frank J. Owens

Ferromagnetism above room temperature in bulk and transparent thin films of Mn-doped ZnO

Density functional calculations of bond dissociation energies for NO2 scission in some nitroaromatic molecules

Room temperature spintronic material—Mn-doped ZnO revisited

Calculation of energy barriers for bond rupture in some energetic molecules

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