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Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
by Cohen, Lesley F , Branford, Will R , Gartside, Jack C , Moskalenko, Andy , Bemmer, Victoria L , Arroo, Daan M , Burn, David M
in Data processing / Data storage / Electronic devices / Entropy / Ground state / Landscape / Metamaterials / Neural networks / Spin ice / Thermal stability
2018
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Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
by Cohen, Lesley F , Branford, Will R , Gartside, Jack C , Moskalenko, Andy , Bemmer, Victoria L , Arroo, Daan M , Burn, David M
in Data processing / Data storage / Electronic devices / Entropy / Ground state / Landscape / Metamaterials / Neural networks / Spin ice / Thermal stability
2018
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Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
by Cohen, Lesley F , Branford, Will R , Gartside, Jack C , Moskalenko, Andy , Bemmer, Victoria L , Arroo, Daan M , Burn, David M
in Data processing / Data storage / Electronic devices / Entropy / Ground state / Landscape / Metamaterials / Neural networks / Spin ice / Thermal stability
2018

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Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing
Journal Article

Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing

Cohen, Lesley F,
Branford, Will R,
Gartside, Jack C,
Moskalenko, Andy,
Bemmer, Victoria L,
Arroo, Daan M,
Burn, David M
2018
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Overview
Arrays of non-interacting nanomagnets are widespread in data storage and processing. As current technologies approach fundamental limits on size and thermal stability, enhancing functionality through embracing the strong interactions present at high array densities becomes attractive. In this respect, artificial spin ices are geometrically frustrated magnetic metamaterials that offer vast untapped potential due to their unique microstate landscapes, with intriguing prospects in applications from reconfigurable logic to magnonic devices or hardware neural networks. However, progress in such systems is impeded by the inability to access more than a fraction of the total microstate space. Here, we demonstrate that topological defect-driven magnetic writing—a scanning probe technique—provides access to all of the possible microstates in artificial spin ices and related arrays of nanomagnets. We create previously elusive configurations such as the spin-crystal ground state of artificial kagome dipolar spin ices and high-energy, low-entropy ‘monopole-chain’ states that exhibit negative effective temperatures.
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Publisher
Nature Publishing Group
Subject

Data processing

/ Data storage

/ Electronic devices

/ Entropy

/ Ground state

/ Landscape

/ Metamaterials

/ Neural networks

/ Spin ice

/ Thermal stability

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