The propagation of spin waves in magnetically ordered systems has emerged as a potential means to shuttle quantum information over large distances. Conventionally, the arrival time of a spin wavepacket at a distance,
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d , is assumed to be determined by its group velocity,v g . Here, we report time-resolved optical measurements of wavepacket propagation in the Kagome ferromagnet Fe3Sn2that demonstrate the arrival of spin information at times significantly less thand /v g . We show that this spin wave “precursor” originates from the interaction of light with the unusual spectrum of magnetostatic modes in Fe3Sn2. Related effects may have far-reaching consequences toward realizing long-range, ultrafast spin wave transport in both ferromagnetic and antiferromagnetic systems.