Remo V. Hügli scite author profile

Artificial spin-ice systems consisting of nanolithographic arrays of isolated nanomagnets are model systems for the study of frustration-induced phenomena. We have recently demonstrated that monopoles and Dirac strings can be directly observed via synchrotronbased photoemission electron microscopy, where the magnetic state of individual nanoislands can be imaged in real space. These experimental results of Dirac string formation are in excellent agreement with Monte Carlo simulations of the hysteresis of an array of dipoles situated on a kagome lattice with randomized switching fields. This formation of one-dimensional avalanches in a two-dimensional system is in sharp contrast to disordered thin films, where avalanches associated with magnetization reversal are twodimensional. The self-organized restriction of avalanches to one dimension provides an example of dimensional reduction due to frustration. We give simple explanations for the origin of this dimensional reduction and discuss the disorder dependence of these avalanches. We conclude with the explicit demonstration of how these avalanches can be controlled via locally modified anisotropies. Such a controlled start and stop of avalanches will have potential applications in data storage and information processing.

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Emergent magnetic monopoles, disorder, and avalanches in artificial kagome spin ice (invited)

Hügli

Duff

O'Conchuir

et al. 2012

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We study artificial spin ice with isolated elongated nanoscale islands arranged in a kagome lattice and solely interacting via long range dipolar fields. The artificial kagome spin ice displays a phenomenology similar to the microscopic pyrochlore system, where excitations at sub-Kelvin temperatures consist of emergent monopole quasiparticles that are connected via a solenoidal flux line, a classical and observable version of the Dirac string. We show that magnetization reversal in kagome spin ice is fundamentally different from the nucleation and extensive domain growth scenario expected for a generic 2D system. Here, the magnetization reverses in a strictly 1D fashion: After nucleation, a monopole-antimonopole dissociates along a 1D path, leaving a (Dirac) string of islands with reversed magnetization in its wake. Since the 2D artificial spin ice spontaneously decays into a 1D subsystem, magnetization reversal in kagome spin ice provides an example of dimensional reduction via frustration. V

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Controlling vortex chirality in hexagonal building blocks of artificial spin ice

Chopdekar¹,

Duff²,

Hügli³

et al. 2013

New J. Phys.

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We exploit dipolar coupling to control the magnetic states in assemblies of single-domain magnetic nanoislands, arranged in one, two and three adjacent hexagonal rings. On tailoring the shape anisotropy of specific islands, and thus their switching fields, we achieve particular target states with near perfect reliability, and are able to control the chirality of the vortex target states. The magnetic states are observed during magnetization reversal with x-ray photoemission electron microscopy and our results are generally in excellent agreement with a numerical model based on point dipoles and realistic values of disorder. We conclude with a quantitative discussion of how our results depend on disorder and the chosen bias in shape anisotropy. Contents

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Collinear Systems and Normal Contractive Projections on JBW*-Triples

Hügli

2007

Integr. equ. oper. theory

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Given a family {x k } k∈K of elements x k in the predual A * of a JBW * -triple A, such that the support tripotents e k of x k form a collinear system in the sense of [31], necessary and sufficient criteria for the existence of a contractive projection from A * onto the subspace lin{x k : k ∈ K} n are provided. Preparatory to these results, and interesting in itself, is a set of necessary and sufficient algebraic conditions upon a contractive projection P on A for its range P A to be a subtriple. The results also provide criteria for the range of a normal contractive projection on A to be a Hilbert space.

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Remo V. Hügli

Real-space observation of emergent magnetic monopoles and associated Dirac strings in artificial kagome spin ice

Artificial kagome spin ice: dimensional reduction, avalanche control and emergent magnetic monopoles

Emergent magnetic monopoles, disorder, and avalanches in artificial kagome spin ice (invited)

Controlling vortex chirality in hexagonal building blocks of artificial spin ice

Collinear Systems and Normal Contractive Projections on JBW*-Triples

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