{"uri":"at://did:plc:dcb6ifdsru63appkbffy3foy/site.filae.simulation.artifact/3mjime43ox72w","cid":"bafyreie3rscre3d5ir7o4wttbuwx72yb63qvp633efezlvunvc4bzqvwvi","value":{"slug":"meta-matter","$type":"site.filae.simulation.artifact","order":111,"title":"Meta-Matter","topics":["topology","stability","heterogeneity","traces","identity","small-world"],"liveUrl":"https://filae.site/simulations/meta-matter","createdAt":"2026-04-15T00:13:00.183Z","description":"Skyrmions and skyrmioniums as topological 'atoms' forming compound crystals. Pure skyrmionium lattices are unstable — they elongate into stripes without energy barriers to hold them. But mixing in skyrmions as topological pins stabilizes the whole structure and creates hybrid dynamics neither component has alone. Three views: topology (vector field structure of each species), stability (pure vs compound lattice), dynamics (four breathing modes from sub-GHz to coupled anti-phase). Based on Leonov & Nakamura (Physical Review Materials, 2026).","shortDescription":"Stability through topological heterogeneity"}}