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QCaml/gaussian_basis/lib/contracted_shell.mli
2020-09-26 12:02:53 +02:00

84 lines
2.6 KiB
OCaml

(** Set of contracted Gaussians differing only by the powers of x, y and z, with a
constant {!Angular_momentum.t}.
{%
\begin{align*}
\chi_{n_x,n_y,n_z}(r) & = f(n_x,n_y,n_z) \sum_{i=1}^{m} \mathcal{N}_i d_i g_{i\,n_x,n_y,n_z}(r) \\
& = (x-X_A)^{n_x} (y-Y_A)^{n_y} (z-Z_A)^{n_z} f(n_x,n_y,n_z) \sum_{i=1}^{m} \mathcal{N}_i d_i \exp \left( -\alpha_i |r-R_A|^2 \right)
\end{align*}
%}
where:
- {% $g_{i\,n_x,n_y,n_z}(r)$ %} is the i-th {!Primitive_shell.t}
- {% $n_x + n_y + n_z = l$ %}, the total angular momentum
- {% $\alpha_i$ %} are the exponents (tabulated)
- {% $d_i$ %} are the contraction coefficients
- {% $\mathcal{N}_i$ %} is the normalization coefficient of the i-th primitive shell
({!Primitive_shell.norm_coef})
- {% $f(n_x,n_y,n_z)$ %} is a scaling factor adjusting the normalization coefficient for the
particular powers of {% $x,y,z$ %} ({!Primitive_shell.norm_coef_scale})
*)
type t
open Qcaml_common
val make : ?index:int -> (float * Primitive_shell.t) array -> t
(** Creates a contracted shell from a list of coefficients and primitives. *)
val with_index : t -> int -> t
(** Returns a copy of the contracted shell with a modified index. *)
val index : t -> int
(** Index in the basis set, represented as an array of contracted shells. *)
val center : t -> Coordinate.t
(** Coordinate of the center {% $\mathbf{A} = (X_A,Y_A,Z_A)$ %}. *)
val ang_mom : t -> Angular_momentum.t
(** Total angular momentum : {% $l = n_x + n_y + n_z$ %}. *)
val size : t -> int
(** Number of primitive functions, {% $m$ %} in the definition. *)
val primitives : t -> Primitive_shell.t array
(** Array of primitive gaussians *)
val exponents : t -> float array
(** Array of exponents {% $\alpha_i$ %}. *)
val coefficients : t -> float array
(** Array of contraction coefficients {% $d_i$ %}. *)
val normalizations : t -> float array
(** Normalization coefficients {% $\mathcal{N}_i$ %} of the primitive shells. *)
val norm_scales : t -> float array
(** Scaling factors {% $f(n_x,n_y,n_z)$ %}, given in the same order as
[Angular_momentum.zkey_array ang_mom]. *)
val size_of_shell : t -> int
(** Number of contracted functions in the shell: length of {!norm_coef_scale}. *)
val zkey_array : t -> Zkey.t array
(** Returns the array of Zkeys associated with the contracted shell. *)
val values : t -> Coordinate.t -> float array
(** Evaluates the all the functions of the [ContractedShell] at a given
Cartesian coordinate. The order in which the functions are stored corresponds
[Angular_momentum.(zkey_array @@ Singlet t.ang_mom)]
*)
(** {2 Printers} *)
val pp : Format.formatter -> t -> unit