Journal
PHYSICAL REVIEW B
Volume 76, Issue 17, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.76.174401
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We explore the possibility of tracking magnetization orientation in artificial structures patterned in La0.7Sr0.3MnO3 epitaxial films by magnetotransport measurements, exploiting the anisotropic magnetoresistance effect. We perform resistance measurements as a function of temperature, magnetic field, and angle between the applied in-plane magnetic field and the channel or crystalline axes in micrometric channels of different widths. We analyze quantitatively our results and extract information about magnetization easy axes, crystalline anisotropy, domain wall resistance, anisotropic magnetoresistance, energy of magnetic domain pinning, and magnetic reversal mechanisms. For channel widths larger than a few micrometers, the magnetization direction at low field (<= 200 Oe) is determined by magnetocrystalline easy axes, whereas for channel widths of similar to 1 mu m or smaller, the shape anisotropy forces the magnetization to align along the channel axis. This gives a precise indication on how artificial patterning can be used to force the magnetization direction in manganite based spintronic devices. Values of magnetocrystalline constant up to 8000 J/m(3) and anisotropic magnetoresistance values between 0.1% and 0.6% are found. Our data also indicate that, in the low field (<= 200 Oe) hysteretic regime, magnetization reversal occurs by thermal activated hopping of domain walls, with a characteristic hopping distance of 4-5 nm.
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