Multicolor groups for molecules and solids

Just like we classify lions and tigers into the same panthera, but into different species, we can classify molecules and solids by their spatial and spin space symmetries. In magnetic molecules and solids, local moments of the atoms can be represented by different colors; we can therefore classify these materials by playing with colors. The advantage of the multicolor group scheme is that it unifies the classifications into a single framework through multicolor group theory, including the recently identified altermagnets and $p$-wave magnets. In particular, non-magnetic compounds fall into 0-color groups, ferro/ferrimagnets fall into 1-color groups, antiferromagnets, as usual, fall into 2-color groups, and non-collinear magnets fall into the simple and complex multicolor groups. Moreover, confusions brought about by conventional magnetic-group classification can be resolved through this new framework.