The fundamental ERI , which is
the basis of all ERI algorithms, is usually represented as
401
Adv. Quantum Chem.
(1994),
25,
pp. 141.
Link
(A.3) |
which can be reduced to a one-dimensional integral of the form
(A.4) |
and can be efficiently computed using a modified Chebyshev interpolation
scheme.
396
Int. J. Quantum Chem.
(1991),
40,
pp. 745.
Link
Equation (A.4) can also be adapted for the
general case integrals required for most calculations.
Following the fundamental ERI, building up to the full bra-ket ERI (or
intermediary matrix elements, see later) are the problems of angular momentum
and contraction.
Note: Square brackets denote primitive integrals and parentheses denote fully-contracted integrals.