Your search keyword '"Gaudin G"' showing total 5 results

1. Magnetic properties of patterned arrays of exchange-biased IrMn/Co square dots.

Author

Vinai, G, Moritz, J, Gaudin, G, Vogel, J, Bonfim, M, Lançon, F, Prejbeanu, I L, Mackay, K, and Dieny, B

Subjects

MAGNETIC properties, FINITE size scaling (Statistical physics), ANTIFERROMAGNETIC materials, COMPUTER simulation, MAGNETIZATION, CARBON compounds

Abstract

Finite size effects on the exchange-bias properties of patterned antiferromagnetic/ferromagnetic (IrMn/Co) nanodots were investigated experimentally and by numerical simulations. Both the dot lateral dimension (200 × 200 nm2-50 × 50 nm2) and ferromagnetic layer thickness (2-25 nm) were varied. Two different behaviours were observed: single-shifted loops with coherent reversal for thin Co layers and double-shifted loops via a multidomain state during magnetization reversal for thicker Co. Atomistic simulations including magnetostatic interactions confirmed the existence of these two different regimes. MOKE measurements, focused on few dots, allowed a quantitative evaluation of dot-to-dot exchange-bias variability, which becomes particularly large in the regime of switching via multidomain state formation. This variability issue is of particular importance in the context of MRAM development and of magnetoresistive heads for hard-disk drives [ABSTRACT FROM AUTHOR]

Published

2013

2. Imaging and quantifying perpendicular exchange biased systems by soft x-ray holography and spectroscopy.

Author

Tieg, C., Jiménez, E., Camarero, J., Vogel, J., Arm, C., Rodmacq, B., Gautier, E., Auffret, S., Delaup, B., Gaudin, G., Dieny, B., and Miranda, R.

Subjects

FERROMAGNETIC materials, ANTIFERROMAGNETISM, X-ray spectroscopy, X-ray holography, MAGNETIC properties, SYNCHROTRONS

Abstract

The magnetic properties of perpendicular exchange biased ferromagnetic (FM)/antiferromagnetic (AFM) [Pt/Co]n/IrMn systems were investigated by a new set-up combining element-selective soft x-ray holography and spectroscopy measurements. The holography experiments allow imaging the magnetization reversal of an exchange biased FM layer with an equivalent Co thickness below 5 nm in real space and in external magnetic fields, and provide direct evidence of its asymmetric nature. From the spectroscopy analysis, we have quantified the unpinned (pinned) uncompensated AFM moments, providing direct evidence of its parallel (antiparallel) alignment with respect to the FM moments. [ABSTRACT FROM AUTHOR]

Published

2010

3. Improved Patterned Media for Probe-Based Heat Assisted Magnetic Recording.

Author

Algré, E., Gaudin, G., Bsiesy, A., and Nozières, J. P.

Subjects

*DATA tapes, *SILICON, *MAGNETIC properties, *SEMICONDUCTORS, *ELECTROMAGNETIC induction, *MAGNETIC tapes

Abstract

In this paper, we describe a new media for heat assisted magnetic recording at ultrahigh density. Thermal simulations were performed to optimize this media. It consists in a patterned porous silicon substrate on which magnetic multilayers are deposited by magnetron sputtering. Magnetic properties of these multilayers are compared to those of layers deposited on regular silicon substrate. Despite the very particular structure of porous silicon surface, no big differences are observed and magnetic properties of the multilayers are conserved. Writing tests will be performed on these media with heating tips. [ABSTRACT FROM AUTHOR]

Published

2005

4. Electric-field control of domain wall nucleation and pinning in a metallic ferromagnet.

Author

Bernand-Mantel, A., Herrera-Diez, L., Ranno, L., Pizzini, S., Vogel, J., Givord, D., Auffret, S., Boulle, O., Miron, I. M., and Gaudin, G.

Subjects

MAGNETIZATION, PROPERTIES of matter, FERROMAGNETISM, CRYSTALLOGRAPHY, MAGNETIC properties

Abstract

The electric (E)-field control of magnetic properties opens the prospects of an alternative to magnetic field or electric current activation to control magnetization. Multilayers with perpendicular magnetic anisotropy have proven to be particularly sensitive to the influence of an E-field due to the interfacial origin of their anisotropy. In these systems, E-field effects have been recently applied to assist magnetization switching and control domain wall (DW) velocity. Here we report on two new applications of the E-field in a similar material: controlling domain wall nucleation and stopping DW propagation at the edge of the electrode. [ABSTRACT FROM AUTHOR]

Published

2013

5. Non-volatile polarization switch of magnetic domain wall velocity

Author

Gaudin, G. [SPINTEC, UMR-8191, CEA/CNRS/UJF/GINP, INAC, F-38054 Grenoble (France)]

Published

2015