“…Electric properties of atoms, molecules, and clusters, which have been widely studied over the years, [1][2][3][4] continue to attract the attention of numerous research groups involved in different areas of atomic, molecular, optics, and chemical physics as well as in relevant existing and emerging technological applications. [21,[27][28][29][30][31] This is because the electric properties (primarily, dipole polarizability and, if present, permanent dipole moment) specify the variety of optical [1,32,33] and electrical [9,[34][35][36] phenomena in molecular gases, underlie the theory of infrared and Raman vibrational spectra, [37] play a paramount role in intermolecular [11,19,23,[38][39][40][41] and electron-molecular [42][43][44] interactions, and serve as markers of thermodynamic and kinetic stability of atomic/molecular systems. [24,25,40,[45][46][47][48][49][50][51][52][53] In this respect, it is not surprising that as a result of numerous experimental and theoretical efforts, a vast body of knowledge on the electric properties of atoms, molecules, atomic and molecular clusters has been gathered to date, [6]…”