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QCaml/ao_basis/lib/ao_basis_gaussian.mli

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(** Data structure for Atomic Orbitals. *)
open Qcaml_common
open Qcaml_particles
open Qcaml_linear_algebra
open Qcaml_gaussian_basis
open Qcaml_gaussian_integrals
open Qcaml_operators
type t =
{
basis : Basis.t ;
overlap : Overlap.t lazy_t;
multipole : Multipole.t lazy_t;
ortho : Orthonormalization.t lazy_t;
eN_ints : Electron_nucleus.t lazy_t;
kin_ints : Kinetic.t lazy_t;
ee_ints : Eri.t lazy_t;
ee_lr_ints : Eri_long_range.t lazy_t;
f12_ints : F12.t lazy_t;
f12_over_r12_ints : Screened_eri.t lazy_t;
cartesian : bool ;
}
(** {1 Accessors} *)
val basis : t -> Basis.t
(** One-electron basis set *)
val overlap : t -> Overlap.t
(** Overlap matrix *)
val multipole : t -> Multipole.t
(** Multipole matrices *)
val ortho : t -> Orthonormalization.t
(** Orthonormalization matrix of the overlap *)
val eN_ints : t -> Electron_nucleus.t
(** Electron-nucleus potential integrals *)
val ee_ints : t -> Eri.t
(** Electron-electron potential integrals *)
val ee_lr_ints : t -> Eri_long_range.t
(** Electron-electron long-range potential integrals *)
val f12_ints : t -> F12.t
(** Electron-electron potential integrals *)
val f12_over_r12_ints : t -> Screened_eri.t
(** Electron-electron potential integrals *)
val kin_ints : t -> Kinetic.t
(** Kinetic energy integrals *)
val cartesian : t -> bool
(** If true, use cartesian Gaussians (6d, 10f, ...) *)
val values : t -> Coordinate.t -> Basis.t Vector.t
(** Values of the AOs evaluated at a given point *)
(** {1 Creators} *)
val make : basis:Basis.t -> ?operators:Operator.t list -> ?cartesian:bool
-> Nuclei.t -> t
(** Creates the data structure for atomic orbitals from a {Basis.t} and the
molecular geometry {Nuclei.t} *)
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