Effect of surface polishing and oxidization induced strain on electronic order at the Verwey transition in Fe sub(3)O sub(4)

Following the controversy between two previous publications (Lorenzo et al 2008 Phys. Rev. Lett. 101 226401 and Garcia et al 2009 Phys. Rev. Lett. 102 176405), we report on the influence of mechanical polishing, and subsequent sample storage, on the electronic order at the Verwey transition of highl...

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Veröffentlicht in:	Journal of physics. Condensed matter 2013-02, Vol.25 (5), p.1-7
Hauptverfasser:	Tabis, W, Lorenzo, J E, Kozlowski, A, Kolodziej, T, Tarnawski, Z, Kakol, Z, Mazzoli, C, Walker, H C, Jaouen, N, Mannix, D, Marin, C, Honig, J M
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Sprache:	eng
Schlagworte:	Condensed matter Electronics Long range order Mechanical polishing Polished Polishing Strain X-rays
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creator	Tabis, W Lorenzo, J E Kozlowski, A Kolodziej, T Tarnawski, Z Kakol, Z Mazzoli, C Walker, H C Jaouen, N Mannix, D Marin, C Honig, J M
description	Following the controversy between two previous publications (Lorenzo et al 2008 Phys. Rev. Lett. 101 226401 and Garcia et al 2009 Phys. Rev. Lett. 102 176405), we report on the influence of mechanical polishing, and subsequent sample storage, on the electronic order at the Verwey transition of highly pure magnetite, Fe sub(3)O sub(4), by resonant x-ray scattering. Contrary to expectations, mechanically polishing the surface induces an inhomogeneous micron deep dead layer, probably of powdered Fe sub(3)O sub(4). In addition, we have found that polishing the sample immediately before the experiment influences and favors the appearance of long range order electronic correlations, whereas samples polished well in advance have their electronic order quenched. Conversely, lattice distortions associated with the Verwey transition appear less affected by the surface state. We conclude that mechanical polishing induces stresses at the surface that may propagate into the core of the single crystal sample. These strains relax with time, which affects the different order parameters, as measured by x-ray resonant diffraction.
doi_str_mv	10.1088/0953-8984/25/5/055603
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Rev. Lett. 101 226401 and Garcia et al 2009 Phys. Rev. Lett. 102 176405), we report on the influence of mechanical polishing, and subsequent sample storage, on the electronic order at the Verwey transition of highly pure magnetite, Fe sub(3)O sub(4), by resonant x-ray scattering. Contrary to expectations, mechanically polishing the surface induces an inhomogeneous micron deep dead layer, probably of powdered Fe sub(3)O sub(4). In addition, we have found that polishing the sample immediately before the experiment influences and favors the appearance of long range order electronic correlations, whereas samples polished well in advance have their electronic order quenched. Conversely, lattice distortions associated with the Verwey transition appear less affected by the surface state. We conclude that mechanical polishing induces stresses at the surface that may propagate into the core of the single crystal sample. 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Condensed matter</title><description>Following the controversy between two previous publications (Lorenzo et al 2008 Phys. Rev. Lett. 101 226401 and Garcia et al 2009 Phys. Rev. Lett. 102 176405), we report on the influence of mechanical polishing, and subsequent sample storage, on the electronic order at the Verwey transition of highly pure magnetite, Fe sub(3)O sub(4), by resonant x-ray scattering. Contrary to expectations, mechanically polishing the surface induces an inhomogeneous micron deep dead layer, probably of powdered Fe sub(3)O sub(4). In addition, we have found that polishing the sample immediately before the experiment influences and favors the appearance of long range order electronic correlations, whereas samples polished well in advance have their electronic order quenched. Conversely, lattice distortions associated with the Verwey transition appear less affected by the surface state. 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subjects	Condensed matter Electronics Long range order Mechanical polishing Polished Polishing Strain X-rays
title	Effect of surface polishing and oxidization induced strain on electronic order at the Verwey transition in Fe sub(3)O sub(4)
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