D. Pescia scite author profile

Inverse freezing and inverse melting are processes where a more symmetric phase is found at lower temperatures than at higher temperatures. Such inverse transitions are very rare. Here we report the existence of an inverse transition effect in ultrathin Fe films that are magnetized perpendicular to the film plane. The magnetization of these films is not uniform, but instead manifests itself as stripe domains with opposite perpendicular magnetization. Predictions relating to the disordering of this striped ground state in the limit of monolayer film thicknesses are controversial. Mean-field arguments predict a continuous reduction of the stripe width when the temperature is increased; other studies suggest that topological defects, such as dislocations and disclinations, might penetrate the system and induce geometrical phase transitions. We find, from scanning electron microscopy imaging, that when the temperature is increased, the low-temperature stripe domain structure transforms into a more symmetric, labyrinthine structure. However, at even higher temperatures and before the loss of magnetic order, a re-occurrence of the less symmetric stripe phase is found. Despite the widespread theoretical and experimental work on striped systems, this phase sequence and the microscopic instabilities driving it have not been observed before.

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Publisher's Note: Fourier Transform Imaging of Spin Vortex Eigenmodes [Phys. Rev. Lett.93, 077207 (2004)]

Buess¹,

Höllinger²,

Haug³

et al. 2004

Phys. Rev. Lett.

125

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Imaging Precessional Motion of the Magnetization Vector

Acremann

Back

Buess

et al. 2000

Science

241

123

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We report on imaging of three-dimensional precessional orbits of the magnetization vector in a magnetic field by means of a time-resolved vectorial Kerr experiment that measures all three components of the magnetization vector with picosecond resolution. Images of the precessional mode taken with submicrometer spatial resolution reveal that the dynamical excitation in this time regime roughly mirrors the symmetry of the underlying equilibrium spin configuration and that its propagation has a non-wavelike character. These results should form the basis for realistic models of the magnetization dynamics in a largely unexplored but technologically increasingly relevant time scale.

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Experimental Phase Diagram of Perpendicularly Magnetized Ultrathin Ferromagnetic Films

et al. 2010

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We image the domain patterns in perpendicularly magnetized ultrathin Fe films on Cu(100) as a function of the temperature T and the applied magnetic field H. Between the low-field stripe phase and the high-field uniform phase we find a bubble phase, consisting of reversed circular domains in a homogeneous background. The curvature of the transition lines in the H-T parameter space is in contrast to the general expectations. The pattern transformations show yet undetected scaling properties.

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Advanced photoelectric effect experiment beamline at Elettra: A surface science laboratory coupled with Synchrotron Radiation

Panaccione

Vobornik²,

Fujii³

et al. 2009

141

107

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Design of a beamline for soft and deep lithography on third generation synchrotron radiation source Rev. Sci. Instrum. 70, 1605 (1999); 10.1063/1.1149640Reuse of AIP Publishing content is subject to the terms at: https://publishing.aip.org/authors/rights-and-permissions. We report the main characteristics of the advanced photoelectric effect experiments beamline, operational at Elettra storage ring, featuring a fully independent double branch scheme obtained by the use of chicane undulators and able to keep polarization control in both linear and circular mode. The paper describes the novel technical solutions adopted, namely, ͑a͒ the design of a quasiperiodic undulator resulting in optimized suppression of higher harmonics over a large photon energy range ͑10-100 eV͒, ͑b͒ the thermal stability of optics under high heat load via cryocoolers, and ͑c͒ the end station interconnected setup allowing full access to off-beam and on-beam facilities and, at the same time, the integration of users' specialized sample growth chambers or modules.

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D. Pescia

An inverse transition of magnetic domain patterns in ultrathin films

Publisher's Note: Fourier Transform Imaging of Spin Vortex Eigenmodes [Phys. Rev. Lett.93, 077207 (2004)]

Imaging Precessional Motion of the Magnetization Vector

Experimental Phase Diagram of Perpendicularly Magnetized Ultrathin Ferromagnetic Films

Advanced photoelectric effect experiment beamline at Elettra: A surface science laboratory coupled with Synchrotron Radiation

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