4.2.16. SingleExcitation file

The operators to generate the single excited state \(c_{i\sigma_1}(c_{i\sigma_1}^{\dagger})\) are defined. An example of the file format is as follows.

===============================
NSingle         24
===============================
======== Single Excitation ======
===============================
    0     0     0    1.0    0.0
    0     1     0    1.0    0.0
    1     0     0    1.0    0.0
   (continue...)
   11     0    0    1.0    0.0
   11     1    0    1.0    0.0

File format

  • Line 1: Header

  • Line 2: [string01] [int01]

  • Lines 3-5: Header

  • Lines 6-: [int02]  [int03]  [int04]  [double01]  [double02].

Parameters

  • [string01]

    Type : String (a blank parameter is not allowed)

    Description : A keyword for the total number of single excitation operators. You can freely give a name to the keyword.

  • [int01]

    Type : Int (a blank parameter is not allowed)

    Description : An integer giving the total number of total number of single excitation operators.

  • [int02]

    Type : Int (a blank parameter is not allowed)

    Description : An integer giving a site index (\(0<=\) [int02] \(<\) Nsite).

  • [int03]

    Type : Int (a blank parameter is not allowed)

    Description : An integer giving a spin index:
    For Hubbard or Kondo system, the index can be selected from
    0: Up-spin,
    1: Down-spin.
    For Spin system, the index can be selected from
    \(0, 1, \cdots, 2S+1\) (corresponding to -\(S-0.5, -S+0.5, \cdots S+0.5\)).
  • [int04]

    Type : Int (a blank parameter is not allowed)

    Description : An integer giving a type of single excitation operators:
    0: \(c_{i\sigma_1}\)
    1: \(c_{i\sigma_1}^{\dagger}\).
  • [double01], [double02]

    Type : Double (a blank parameter is not allowed)

    Description : [double01] gives the real part of \(c_{i\sigma_1} (c_{i\sigma_1} ^{\dagger})\), while [double02] gives the imaginary part of \(c_{i\sigma_1} (c_{i\sigma_1} ^{\dagger})\).

Use rules

  • Headers cannot be omitted.

  • A program is terminated when the components of the single excitation operators are double counted.

  • A program is terminated when the conditions \(i=j\) and \(k=l\) are not satisfied for spin model.

  • A program is terminated when [int01] is different from the total number of two-body Green’s functions defined in this file.

  • A program is terminated, when [int02]-[int04] are outside the range of the defined values.