Show the Lambda Diagnostic

This job prints the result of the Lambda diagnostic test, as described by Peach et al., that judges the reliability of TDDFT excited states calculations. It also allows to validate the grid size configuration by computing overlap integrals between the orbitals involved in the excited states.

Transitions file format

This job requires a file containing the list of electronic transitions to analyse. Below is an example of the expected format for this file, that includes to excited states:

1Energy 8.5844 eV
27 A 9 A 0.69993
37 B 9 B 0.69993
4
5Energy 9.7919 eV
65 9 -0.49831
76 8 0.49831

Each excited state starts with a line indicating its energy. Accepted units are eV (electronvolt) or H (Hartree). This line is followed by one or more lines describing the electronic transitions that contribute to this excited state. Each transition line contains three or five space-separated values. In the first excited state above, five values are given: the number of the occupied orbital and its spin (A for alpha, B for beta), the number of the virtual orbital and its spin, and the coefficient of the transition. In the second excited state, only three values are given: the number of the occupied orbital, the number of the virtual orbital and the coefficient. In this case, it is assumed that the line describes both an alpha and a beta electrons (i.e. the first line for this state could be expanded into two lines: 5 A 9 A -0.49831 and 5 B 9 B -0.49831).

Available Grid sizes

Three standard grid sizes are available:

  • coarse: 3 points per Bohr radius

  • medium: 6 points per Bohr radius

  • fine: 12 points per Bohr radius.

It is also possible to define a custom grid size using the custom option. In this case, the CustomSizeData parameter must be provided in the input file, with the following format: Nx,Ny,Nz,Ox,Oy,Oz,T11,T12,T13,T21,T22,T23,T31,T32,T33, where Ni are the number of points in the i-th direction, Oi are the coordinates of the bottom left corner of the cube and Tij are the coefficients of the translation vector.

Supported input formats

Below are the supported input file formats:

  • .fchk

  • .gab

  • .log

  • .molden

  • .wfx.

Example input file

Here is an example input file for this job:

1#Runtype=Help
2RunType=LambdaDiagnostic
3# Analytic file name
4AnalyticFile=filename.wfx
5# Grid configuration
6Size=Custom
7CustomSizeData=128,128,128,5,5,5,7.87401574803148e-02,0,0,0,7.87401574803148e-02,0,0,0,7.87401574803148e-02
8TransitionsFile=transitions.txt