Abstract
This work presents a computer program that performs symmetry-unrestricted 3D
nuclear time-dependent density function theory (DFT) calculations. The program
features the augmented Lagrangian constraint in the static calculation. This
allows for the calculation of the potential energy surface. In addition, the
code includes the full energy density functionals derived from the Skyrme
interaction, meaning that the time-even and time-odd tensor parts are included
for the time-dependent calculations. The results of the hit3d code are
carefully compared with the Sky3D and Ev8 programs. The testing cases include
unconstrained DFT calculations for doubly magic nuclei, the constrained DFT +
BCS calculations for medium-heavy nucleus 110Mo, and the dynamic applications
for harmonic vibration and nuclear reactions.