We study the defect dynamics in a colloidal spin ice system realized by filling a square lattice of topographic double well islands with repulsively interacting magnetic colloids. We focus on the contraction of defects in the ground state, and contraction or expansion in a metastable biased state. Combining real-time experiments with simulations, we prove that these defects behave like emergent topological monopoles obeying a Coulomb law with an additional line tension. We further show how to realize a completely resettable 'nor' gate, which provides guidelines for fabrication of nanoscale logic devices based on the motion of topological magnetic monopoles
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles have stimulated a great amount of theoretical and experimental interest since the...
International audienceAbstract Lithographically defined arrays of nanomagnets are well placed for ap...
Artificial particle ices are model systems of constrained, interacting particles. They have been int...
Artificial particle ices are model systems of constrained, interacting particles. They have been int...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
The effect of boundaries and how these can be used to influence the bulk behavior in geometrically f...
Artificial spin ice systems, namely lattices of interacting single domain ferromagnetic islands, hav...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
While finding the elementary magnetic monopole seems not an easy task, recently, scientists have com...
Systems of interacting nanomagnets known as artificial spin ice 1-4 have allowed the design, realiza...
Systems of interacting nanomagnets known as artificial spin ice 1-4 have allowed the design, realiza...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles have stimulated a great amount of theoretical and experimental interest since the...
International audienceAbstract Lithographically defined arrays of nanomagnets are well placed for ap...
Artificial particle ices are model systems of constrained, interacting particles. They have been int...
Artificial particle ices are model systems of constrained, interacting particles. They have been int...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
The effect of boundaries and how these can be used to influence the bulk behavior in geometrically f...
Artificial spin ice systems, namely lattices of interacting single domain ferromagnetic islands, hav...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
While finding the elementary magnetic monopole seems not an easy task, recently, scientists have com...
Systems of interacting nanomagnets known as artificial spin ice 1-4 have allowed the design, realiza...
Systems of interacting nanomagnets known as artificial spin ice 1-4 have allowed the design, realiza...
Magnetic monopoles, proposed as elementary particles that act as isolated magnetic south and north p...
Magnetic monopoles have stimulated a great amount of theoretical and experimental interest since the...
International audienceAbstract Lithographically defined arrays of nanomagnets are well placed for ap...
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