$\textit{Ab initio}$ Exact Calculation of Strongly-Correlated Nucleonic Matter

Dense nucleonic matter is of vital importance for understanding compact stars and inferring the transition into deconfined quark phase. We present the $\textit{ab initio}$ exact calculations of infinite nucleonic matter with the state-of-the-art full configuration-interaction quantum Monte Carlo (FCIQMC) method, enabling us to rigorously benchmark many-body methods and assess the degree to which the nucleonic matter is strongly correlated. This method has been numerically testified to exact diagonalization within a small basis. Calculations of nucleonic matter using the chiral nuclear forces reveal that the symmetric nuclear matter is strikingly strongly correlated than expected, raising questions on previous $\textit{ab initio}$ calculations of nuclear matter with truncations and offering insights into simultaneous descriptions of finite nuclei and infinite nucleonic matter from first principles.