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QCaml/gaussian_integrals/lib/eri_long_range.ml

66 lines
1.8 KiB
OCaml

(** Long-range electron-electron repulsion integrals.
See Eq(52) in 10.1039/b605188j
*)
open Qcaml_common
open Qcaml_gaussian_basis
open Qcaml_operators
module Csp = Contracted_shell_pair
module Cspc = Contracted_shell_pair_couple
module T = struct
let name = "Long-range electron repulsion integrals"
open Zero_m_parameters
let zero_m z =
let mu_erf =
match z.operator with
| Some (Operator.Range_sep mu) -> mu
| _ -> assert false
in
let m = mu_erf *. mu_erf in
let expo_pq_inv = z.expo_p_inv +. z.expo_q_inv in
let fG_inv = expo_pq_inv +. 1. /. m in
let fG = 1. /. fG_inv in
assert (expo_pq_inv <> 0.);
let t =
if z.norm_pq_sq > Constants.integrals_cutoff then
z.norm_pq_sq *. fG
else 0.
in
let maxm = z.maxm in
let result = Util.boys_function ~maxm t in
let rec aux accu k = function
| 0 -> result.(k) <- result.(k) *. accu
| l ->
begin
result.(k) <- result.(k) *. accu;
let new_accu = -. accu *. fG in
(aux [@tailcall]) new_accu (k+1) (l-1)
end
in
let f = Constants.two_over_sq_pi *. (sqrt fG) in
aux f 0 maxm;
result
let class_of_contracted_shell_pair_couple ?operator shell_pair_couple =
let shell_p = Cspc.shell_pair_p shell_pair_couple
and shell_q = Cspc.shell_pair_q shell_pair_couple
in
if Array.length (Csp.shell_pairs shell_p) +
(Array.length (Csp.shell_pairs shell_q)) < 4 then
Two_electron_rr.contracted_class_shell_pair_couple
?operator ~zero_m shell_pair_couple
else
Two_electron_rr_vectorized.contracted_class_shell_pairs
?operator ~zero_m shell_p shell_q
end
module M = Two_electron_integrals.Make(T)
include M