Add to ORKGAchieving thermal equilibrium in two-dimensional lattices of interacting nanomagnets has been a key issue on the route to study exotic phases in artificial frustrated magnets. We revisit this issue in artificial one-dimensional kagom\'e spin chains. Imaging arrested micro-states generated by a field demagnetization protocol and analyzing their pairwise spin correlations in real space, we unveil a non-equilibrated physics. Remarkably, this physics can be reformulated into an at-equilibrium one by rewriting the associated spin Hamiltonian in such a way that one of the coupling constants is quenched. We ascribe this effective behavior to a kinetic hinderance during the demagnetization protocol, which induces the formation of local flux closure...
Artificial ice systems have been designed to replicate paradigmatic phenomena observed in frustrated...
We have measured the specific heat C(T) of the S = 3/2 Kagomé-lattice-containing compound SrCr9pGa12...
We investigate magnetic orderings on kagome lattice numerically from the tight-binding Hamiltonian o...
Over the past decades, magnetic frustration has been under intense debate due to its unusual propert...
The research leading to these results has received funding from the European Community’s Seventh Fra...
Motivated by dipolar-coupled artificial spin systems, we present a theoretical study of the classica...
Arrays of non-interacting nanomagnets are widespread in data storage and processing. As current tech...
Kagome spin ice is one of the canonical examples of highly frustrated magnets. The effective magneti...
7 pages, 6 figuresInternational audienceMagnetic frustration effects in artificial kagome arrays of ...
Artificial kagome spin ice exhibits exotic magnetic correlations driven by a combination of geometri...
International audienceWe experimentally investigate magnetic frustration effects in thermally active...
It is predicted that strongly interacting spins on a frustrated lattice may lead to a quantum disord...
A new class of two-dimensional magnetic materials Cu9X2(cpa)(6)center dot xH(2)O (cp...
Despite their simple formulation, short-range classical antiferromagnetic Ising models on frustrated...
Frustrated systems, typically characterized by competing interactions that cannot all be simultaneou...
Artificial ice systems have been designed to replicate paradigmatic phenomena observed in frustrated...
We have measured the specific heat C(T) of the S = 3/2 Kagomé-lattice-containing compound SrCr9pGa12...
We investigate magnetic orderings on kagome lattice numerically from the tight-binding Hamiltonian o...
Over the past decades, magnetic frustration has been under intense debate due to its unusual propert...
The research leading to these results has received funding from the European Community’s Seventh Fra...
Motivated by dipolar-coupled artificial spin systems, we present a theoretical study of the classica...
Arrays of non-interacting nanomagnets are widespread in data storage and processing. As current tech...
Kagome spin ice is one of the canonical examples of highly frustrated magnets. The effective magneti...
7 pages, 6 figuresInternational audienceMagnetic frustration effects in artificial kagome arrays of ...
Artificial kagome spin ice exhibits exotic magnetic correlations driven by a combination of geometri...
International audienceWe experimentally investigate magnetic frustration effects in thermally active...
It is predicted that strongly interacting spins on a frustrated lattice may lead to a quantum disord...
A new class of two-dimensional magnetic materials Cu9X2(cpa)(6)center dot xH(2)O (cp...
Despite their simple formulation, short-range classical antiferromagnetic Ising models on frustrated...
Frustrated systems, typically characterized by competing interactions that cannot all be simultaneou...
Artificial ice systems have been designed to replicate paradigmatic phenomena observed in frustrated...
We have measured the specific heat C(T) of the S = 3/2 Kagomé-lattice-containing compound SrCr9pGa12...
We investigate magnetic orderings on kagome lattice numerically from the tight-binding Hamiltonian o...