—In this paper, a novel superjunction fin-based NiO/β-Ga2O3 heterojunction field-effect transistor (SJ Fin-HJFET) is proposed and studied by simulations. Compared with the conventional Ga2O3 SJ FinFET, Ga2O3 SJ Fin-HJFET can generate surface conduction channels instead of depletion zones near the p-n junction interface in the SJ drift region. The additional surface conduction channel significantly improves the specific on-resistance of the SJ Fin-HJFET (from 1.091 mΩ cm2 to 0.397 mΩ cm2, reduced by 63.6 %) and dramatically improves the Baliga figure of merit (BFOM, form 11.75 GW/cm2 to 32.28 GW/cm2) at the same breakdown voltage (3580 V). The effect of different conduction band offset (ΔEC) on the performance of the SJ Fin-HJFET is also investigated. The simulation results show that the on-resistance advantage of the SJ Fin-HJFET applies to a wide range of ΔEC, exhibiting strong applicability and stability. These results indicate that the SJ Fin-HJFET has record-high performance and promising application prospects.