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Paper detail

Hopf solitons in helical and conical backgrounds of chiral magnetic solids

Three-dimensional topological solitons attract a great deal of interest in fields ranging from particle physics to cosmology but remain experimentally elusive in solid-state magnets. Here we numerically predict magnetic heliknotons, an embodiment of such nonzero-Hopf-index solitons localized in all spatial dimensions while embedded in a helical or conical background of chiral magnets. We describe conditions under which heliknotons emerge as metastable or ground-state localized nonsingular structures with fascinating knots of magnetization field in widely studied materials. We demonstrate magnetic control of three-dimensional spatial positions of such solitons, as well as show how they interact to form molecule-like clusters and possibly even crystalline phases comprising three-dimensional lattices of such solitons with both orientational and positional order. Finally, we discuss both fundamental importance and potential technological utility of magnetic heliknotons.

preprint2020arXivOpen access
Robert VoinescuJung-Shen B. TaiIvan I. Smalyukh
cond-mat.mes-hallcond-mat.mtrl-sci
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Robert VoinescuJung-Shen B. TaiIvan I. Smalyukh

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