Chris L. Wooten scite author profile

The magnetic properties of ultrathin (1 -5 monolayer) Fe films on Ag(100) substrates were investigated using SQUID magnetometry.Films were grown in pairs (one bulklike, the other thin) and characterized in aitu by low-energy electron diffraction, Auger spectroscopy, and the surface magneto-optic Kerr effect. The films were then capped with Au and studied with a SQUID magnetometer over the temperature range 2 -340 K. We report here a direct observation of enhanced magnetic moments for Fe on Ag(100), with interface moments enhanced as much as 29%.

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The pressure dependence of Tc in the infinite-layer electron-doped compound Sr0.84Nd0.16CuO2

Wooten

Beom‐Hoan

Markert

et al. 1992

Physica C: Superconductivity

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Grain boundary diffusion and its effects on the magnetic properties of Co/Cu and Co/Cr thin film bilayers

Pellerin¹,

Anderson²,

Ho³

et al. 1994

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X-ray photoelectron spectroscopy has been used to investigate grain boundary diffusion of Cu and Cr through 1000-Å-thick Co films in the temperature range of 300–400 °C. Grain boundary diffusivities were determined by modeling the accumulation of Cu or Cr on Co surfaces as a function of time at fixed annealing temperature. The grain boundary diffusivity of Cu through Co has a diffusion coefficient D0,gb of 2×104 cm2/s and an activation energy Ea,gb of 2.4 eV. Similarly, Cr grain boundary diffusion through Co thin films exhibits a D0,gb of 6×10−2 cm2/s and an Ea,gb of 1.8 eV. The Co film microstructure has been investigated before and after annealing by x-ray diffraction and transmission electron microscopy. Extensive grain growth and texturing of the magnetic film occurred during annealing for Co deposited on a Cu underlayer which is believed to influence the grain boundary diffusion process. In contrast, the microstructure of Co deposited on a Cr underlayer remained relatively unchanged upon annealing. The difference in grain growth between the two bilayers has been suggested to account for the large disparity in activation energies. Magnetometer measurements have shown that increased in-plane coercivity Hc, reduced remanence squareness S, and reduced coercive squareness S* result from grain boundary diffusion of Cu and Cr into the Co films.

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Chris L. Wooten

Oxo-bridged iron clusters. Synthesis of 1,3-bis(1,4,7-triaza-1-cyclononyl)-2-hydroxypropane and its stabilization of the Fe4O6 core

Structure and properties of a tetranuclear iron(III) cage complex. A model for hemerythrin

Direct observation of enhanced magnetic moments in Fe/Ag(100)

The pressure dependence of Tc in the infinite-layer electron-doped compound Sr0.84Nd0.16CuO2

Grain boundary diffusion and its effects on the magnetic properties of Co/Cu and Co/Cr thin film bilayers

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