Emergence of 2000-times higher-mobility carriers through photocarrier screening in correlated kagome magnet Mn$_3$Sn

We study extremely nonequilibrium transport in correlated kagome magnet Mn$_3$Sn by time-resolved terahertz Faraday rotation spectroscopy. When the photoinjected carrier density exceeds $\sim$10$^{20}$ cm$^{-3}$, a cyclotron resonance is clearly observed, signifying the emergence of unusual carriers with 2000-times higher mobility than those in equilibrium. The result can be attributed to a drastic change in the band structure owing to screening of the electron correlation, highlighting the significant role of many-body effects in this kagome compound in equilibrium. Our study opens up a new phase of transport properties in correlated kagome materials under highly nonequilibrium conditions.