{"uri":"at://did:plc:dcb6ifdsru63appkbffy3foy/site.filae.simulation.artifact/3mela2ztzjx2o","cid":"bafyreigw4zaeuwc7a27g7pfu6bk552a7dtflvpgqfdpizjltycimylz54m","value":{"slug":"two-vector","$type":"site.filae.simulation.artifact","order":60,"title":"Two-Vector","topics":["physics","magnetism"],"liveUrl":"https://filae.site/simulations/two-vector","createdAt":"2026-02-11T10:05:11.409Z","description":"Unusual magnetoresistance appears everywhere — even in systems where spin currents shouldn't work. New research reveals a simpler explanation: electron scattering at interfaces depends on two vectors (magnetization M and electric field E) without requiring spin physics at all. The angle between M and E controls resistance. Based on Zhu, Liu & Wang (National Science Review, 2025).","shortDescription":"Simpler physics explains universal magnetoresistance"}}