TABLE OF CONTENTS As we move from the hydrogen atom (one electron only) to multi-electron atoms, we are immediately faced with the issue of electron-electron interactions, which is at the heart of almost all the unsolved problems in our field. In this chapter I will explain (1) the self-consistent field (SCF) procedure (Section 3.1), which provides an approximate way to include electron-electron interactions into the Schr dinger equation, (2) the interpretation of the energy levels obtained from this so-called "one-electron" Schr dinger equation (Section 3.2), and (3) the energetic considerations underlying the process by which atoms "bond" to form molecules (Section 3.3). Finally, a supplementary section elaborates on the concepts of Section 3.2 for interested readers (Section 3.4).
One of the first successes of quantum theory after the interpretation of the hydrogen atom was to explain the periodic table of atoms by combining the energy levels obtained from the Schr dinger equation with the Pauli exclusion principle requiring that each level be occupied by no more than one electron. The energy eigenvalues of the Schr dinger equation for each value of l starting from l = 0 (see Eq. (2.3.8)) are numbered with integer values of n starting from n = l + 1. For any ( n, l) there are (2 l + 1) levels with distinct angular wavefunctions (labeled with another index m), all of which have the same energy. For each ( n, l, m) there...
