Quantum oscillations of Kagome Metal ScV₆Sn₆ in intense magnetic field

Quantum oscillations in strong magnetic fields give us direct insight into the bandstructure of solids via the quantization of electron motion. The Kagome lattice structure allows for topologically protected surface states that can be realized via the frequency of observed quantum oscillations. A crucial question remains about the fate of the small orbits when the magnetic field is strong enough to push the electronic state to the quantum limit. By utilizing proximity detector oscillators (PDOs) in a 65 T pulsed field, we resolved strong quantum oscillations corresponding to Fermi surface orbits in ScV₆Sn₆. The study will be compared with the Landau level indexing mapping with the quantum oscillation results in the DC fields.