Altermagnetic Shastry-Sutherland fullerene networks

Abstract: Molecular building blocks provide a versatile platform for realising exotic quantum phases. Using charge neutral, pure carbon fullerene molecules as an example, we design altermagnetic C$_{40}$ monolayers in Shastry-Sutherland lattice. The resonance structure of one unpaired electron leads to an effective spin-1/2 cluster on both long sides of the molecule, which, after rotating into a 2D rutile-like crystal structure, forms altermagnetic ground state. We show $d$-wave spitting of the spin-polarised electronic band structure and strong chiral-split magnon bands. Most interestingly, the effective spin-1/2 clusters form the Shastry-Sutherland model with a rich phase diagram including altermagenti, quantum spin liquid, plaquette, and dimer phases, which can be easily accessed to via moderate bi-axial strains. Our findings present magnetic fullerene monolayers as a tunable platform for exotic quantum magnetism and spintronic applications.