exciting.nomadmetainfo.json 40.2 KB
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{
  "type": "nomad_meta_info_1_0",
  "description": "meta info used by the exciting parser, all names are expected to start with exciting",
  "dependencies": [ {
      "relativePath": "common.nomadmetainfo.json"
    }, {
      "relativePath": "meta_types.nomadmetainfo.json"
    }],
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  "metaInfos": [ {
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      "description": "Forces acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_forces",
      "repeats": true,
      "shape": [
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        "x_exciting_number_of_atoms",
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        3
      ],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
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    },{
      "description": "IBS correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_IBS_forces",
      "shape": ["x_exciting_number_of_atoms",3],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
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    },{
      "description": "Geometry optimization method",
      "dtypeStr": "C",
      "name": "x_exciting_geometry_optimization_method",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "Geometry optimization step",
      "dtypeStr": "i",
      "name": "x_exciting_geometry_optimization_step",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
      "description": "core correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_core_forces",
      "shape": ["x_exciting_number_of_atoms",3],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    },{
      "description": "HF correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_HF_forces",
      "shape": ["x_exciting_number_of_atoms",3],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    },{
      "description": "x-component of the IBS correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_IBS_forces_x",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "y-component of the IBS correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_IBS_forces_y",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "z-component of the IBS correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_IBS_forces_z",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "x-component of the core correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_core_forces_x",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "y-component of the core correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_core_forces_y",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "z-component of the core correction to the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_core_forces_z",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "x-component of the HF Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_HF_forces_x",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "y-component of the HF Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_HF_forces_y",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "z-component of the HF Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_HF_forces_z",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "x-component of the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_forces_x",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "y-component of the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_forces_y",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
    }, {
      "description": "z-component of the Force acting on the atoms.",
      "dtypeStr": "f",
      "name": "x_exciting_atom_forces_z",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
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      "description": "number of vertices along the kpoint path used for the bandstructure plot",
      "dtypeStr": "i",
      "name": "x_exciting_band_number_of_vertices",
      "shape": [],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
    }, {
      "description": "number of points along the kpoint path used for the bandstructure plot",
      "dtypeStr": "i",
      "name": "x_exciting_band_number_of_kpoints",
      "shape": [],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
    }, {
      "description": "labels of the vertices along the kpoint path used for the bandstructure plot",
      "dtypeStr": "C",
      "name": "x_exciting_band_vertex_labels",
      "shape": ["x_exciting_band_number_of_vertices"],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
    }, {
      "description": "coordinates of the vertices along the kpoint path used for the bandstructure plot",
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      "dtypeStr": "f",
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      "name": "x_exciting_band_vertex_coordinates",
      "shape": ["x_exciting_band_number_of_vertices",3],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
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    }, {
      "description": "String to specify the kind of band structure (either electronic or vibrational).",
      "dtypeStr": "C",
      "name": "x_exciting_band_structure_kind",
      "repeats": false,
      "shape": [],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
    }, {
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      "description": "number of eigenvalues per k-point",
      "dtypeStr": "i",
      "name": "x_exciting_band_number_of_eigenvalues",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_bandstructure"
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      ]
    },  {
      "description": "Fractional coordinates of the k points (in the basis of the reciprocal-lattice vectors) for which the electronic energy are given.",
      "dtypeStr": "f",
      "name": "x_exciting_band_k_points",
      "shape": ["x_exciting_band_number_of_kpoints"],
      "superNames": [
        "x_exciting_section_bandstructure"
      ]
    }, {
      "description": "$k$-dependent energies of the electronic band structure.",
      "dtypeStr": "f",
      "name": "x_exciting_band_energies",
      "shape": [
        "number_of_spin_channels",
        "x_exciting_band_number_of_kpoints",
        "x_exciting_band_number_of_eigenvalues"
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      ],
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      "superNames": [
        "x_exciting_section_bandstructure"
      ],
      "units": "J"
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    }, {
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      "description": "Bandstructure energy values",
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      "dtypeStr": "f",
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      "name": "x_exciting_band_value",
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      "repeats": true,
      "shape": [],
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      "superNames": [
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        "x_exciting_section_bandstructure"
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      ],
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      "units": "J"
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    }, {
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      "description": "Brillouin zone volume",
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      "dtypeStr": "f",
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      "name": "x_exciting_brillouin_zone_volume",
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      "superNames": [
        "section_system"
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      ],
      "units": "m^-3"
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    }, {
      "description": "exciting charge convergence",
      "dtypeStr": "f",
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      "name": "x_exciting_charge_convergence_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ]
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    }, {
      "description": "Core charge",
      "dtypeStr": "f",
      "name": "x_exciting_core_charge",
      "superNames": [
        "section_system"
      ]
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    }, {
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      "description": "Core charge",
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      "dtypeStr": "f",
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      "name": "x_exciting_core_charge_initial",
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      "superNames": [
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        "section_system"
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      ],
      "units": "C"
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    }, {
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      "description": "Core-electron kinetic energy",
      "dtypeStr": "f",
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      "name": "x_exciting_core_electron_kinetic_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Core-electron kinetic energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_core_electron_kinetic_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    },{
      "description": "Core charge",
      "dtypeStr": "f",
      "name": "x_exciting_core_charge_scf_iteration",
      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "C"
    },{
      "description": "Valence charge",
      "dtypeStr": "f",
      "name": "x_exciting_valence_charge_scf_iteration",
      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "C"
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    }, {
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      "description": "Core leakage",
      "dtypeStr": "f",
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      "name": "x_exciting_core_leakage_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "C"
    }, {
      "description": "Core leakage",
      "dtypeStr": "f",
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      "name": "x_exciting_core_leakage",
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      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "C"
    }, {
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      "description": "Correlation energy",
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      "dtypeStr": "f",
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      "name": "x_exciting_correlation_energy_scf_iteration",
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      "shape": [],
      "superNames": [
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        "energy_component",
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        "section_scf_iteration"
      ],
      "units": "J"
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    }, {
      "description": "Correlation energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_correlation_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
    }, {
      "description": "Coulomb energy",
      "dtypeStr": "f",
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      "name": "x_exciting_coulomb_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Coulomb energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_coulomb_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
    }, {
      "description": "Coulomb potential energy",
      "dtypeStr": "f",
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      "name": "x_exciting_coulomb_potential_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Coulomb potential energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_coulomb_potential_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
      "description": "energy value for a dos point",
      "dtypeStr": "f",
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      "name": "x_exciting_dos_energy",
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      "repeats": true,
      "shape": [],
      "superNames": [
        "energy_value",
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        "x_exciting_section_dos"
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      ],
      "units": "J"
    }, {
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      "description": "DOS at Fermi energy",
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      "dtypeStr": "f",
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      "name": "x_exciting_dos_fermi_scf_iteration",
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      "shape": [],
      "superNames": [
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        "section_scf_iteration"
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      ],
      "units": "J^-1"
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    }, {
      "description": "DOS at Fermi energy",
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      "dtypeStr": "f",
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      "name": "x_exciting_dos_fermi",
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      "shape": [],
      "superNames": [
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        "section_single_configuration_calculation"
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      ],
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      "units": "J^-1"
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    }, {
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      "description": "Density of states values",
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      "dtypeStr": "f",
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      "name": "x_exciting_dos_value",
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      "repeats": true,
      "shape": [],
      "superNames": [
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        "x_exciting_section_dos"
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      ],
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      "units": "J^-1"
    }, {
      "description": "exciting effective potential convergence",
      "dtypeStr": "f",
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      "name": "x_exciting_effective_potential_convergence_scf_iteration",
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      "shape": [],
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      "superNames": [
        "section_scf_iteration"
      ],
      "units": "J"
    },{
      "description": "exciting force convergence",
      "dtypeStr": "f",
      "name": "x_exciting_force_convergence_scf_iteration",
      "shape": [],
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      "superNames": [
        "section_scf_iteration"
      ]
    }, {
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      "description": "Effective potential energy",
      "dtypeStr": "f",
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      "name": "x_exciting_effective_potential_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Effective potential energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_effective_potential_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
    }, {
      "description": "Electron-nuclear energy",
      "dtypeStr": "f",
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      "name": "x_exciting_electron_nuclear_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Electron-nuclear energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_electron_nuclear_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
      "description": "Electronic charge",
      "dtypeStr": "f",
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      "name": "x_exciting_electronic_charge",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "Number of empty states",
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      "dtypeStr": "i",
      "name": "x_exciting_empty_states",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "exciting energy convergence",
      "dtypeStr": "f",
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      "name": "x_exciting_energy_convergence_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ]
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    }, {
      "description": "Exchange energy",
      "dtypeStr": "f",
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      "name": "x_exciting_exchange_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Exchange energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_exchange_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
      "description": "Fermi energy for Fermi surface",
      "dtypeStr": "f",
      "name": "x_exciting_fermi_energy_fermi_surface",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_fermi_surface"
      ],
      "units": "J"
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    }, {
      "description": "Fermi energy",
      "dtypeStr": "f",
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      "name": "x_exciting_fermi_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Fermi energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_fermi_energy",
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      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
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      "units": "J"
    }, {
      "description": "Estimated fundamental gap",
      "dtypeStr": "f",
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      "name": "x_exciting_gap_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Estimated fundamental gap",
      "dtypeStr": "f",
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      "name": "x_exciting_gap",
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      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    },{
      "description": "dummy metadata for debuging purposes",
      "dtypeStr": "i",
      "name": "x_exciting_dummy",
      "repeats": true,
      "shape": [],
      "superNames": [
        "section_method"
      ]
    },{
      "description": "dummy metadata for debuging purposes",
      "dtypeStr": "C",
      "name": "x_exciting_dummy2",
      "repeats": true,
      "shape": [],
      "superNames": [
        "section_run"
      ]
    },  {
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      "description": "labels of atom",
      "dtypeStr": "C",
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      "name": "x_exciting_geometry_atom_labels",
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      "repeats": true,
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      "shape": [],
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      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
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    }, {
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      "description": "number to identify the atoms of a species",
      "dtypeStr": "C",
      "name": "x_exciting_geometry_atom_number",
      "repeats": true,
      "shape": [],
      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
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    },{
      "description": "number to identify the atoms of a species in the geometry optimization",
      "dtypeStr": "C",
      "name": "x_exciting_atom_number",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    },  {
      "description": "labels of atoms in geometry optimization",
      "dtypeStr": "C",
      "name": "x_exciting_atom_label",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    },  {
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      "description": "number to identify the atoms of a species on which a magnetic field is applied",
      "dtypeStr": "C",
      "name": "x_exciting_MT_external_magnetic_field_atom_number",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    },  {
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      "description": "Labels of the atoms in the clathrates.",
      "dtypeStr": "C",
      "name": "x_exciting_clathrates_atom_labels",
      "shape": [
        "number_of_atoms"
      ],
      "superNames": [
        "section_system"
      ]
    },  {
      "description": "Ordered list of the atoms coordinates in the clathrates.",
      "dtypeStr": "f",
      "name": "x_exciting_clathrates_atom_coordinates",
      "shape": [
        "number_of_atoms",3
      ],
      "superNames": [
        "section_system"
      ]
    },  {
      "description": "It indicates whether the system is a clathrate.",
      "dtypeStr": "b",
      "name": "x_exciting_clathrates",
      "shape": [],
      "superNames": [
        "section_system"
      ]
    },   {
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      "description": "x component of the force acting on the atom",
      "dtypeStr": "f",
      "name": "x_exciting_geometry_atom_forces_x",
      "repeats": true,
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    }, {
      "description": "y component of the force acting on the atom",
      "dtypeStr": "f",
      "name": "x_exciting_geometry_atom_forces_y",
      "repeats": true,
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    },{
      "description": "z component of the force acting on the atom",
      "dtypeStr": "f",
      "name": "x_exciting_geometry_atom_forces_z",
      "repeats": true,
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    },{
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      "description": "If the volume optimization is performed.",
      "dtypeStr": "b",
      "name": "x_exciting_volume_optimization",
      "shape": [],
      "superNames": [
        "section_method"
      ]
    },  {
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      "description": "x component of atomic position",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_atom_positions_x",
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      "repeats": true,
      "shape": [],
      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
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    }, {
      "description": "y component of atomic position",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_atom_positions_y",
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      "repeats": true,
      "shape": [],
      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
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    }, {
      "description": "z component of atomic position",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_atom_positions_z",
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      "repeats": true,
      "shape": [],
      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
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    }, {
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      "description": "x component of the magnetic field",
      "dtypeStr": "f",
      "name": "x_exciting_MT_external_magnetic_field_x",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    }, {
      "description": "y component of the magnetic field",
      "dtypeStr": "f",
      "name": "x_exciting_MT_external_magnetic_field_y",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    }, {
      "description": "z component of the magnetic field",
      "dtypeStr": "f",
      "name": "x_exciting_MT_external_magnetic_field_z",
      "repeats": true,
      "shape": [],
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
    },  {
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      "description": "x component of lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_lattice_vector_x",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_lattice_vectors"
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      ],
      "units": "m"
    }, {
      "description": "y component of lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_lattice_vector_y",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_lattice_vectors"
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      ],
      "units": "m"
    }, {
      "description": "z component of lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_lattice_vector_z",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_lattice_vectors"
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      ],
      "units": "m"
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    }, {
      "description": "x component of reciprocal lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_reciprocal_lattice_vector_x",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_reciprocal_lattice_vectors"
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      ],
      "units": "m^-1"
    }, {
      "description": "y component of reciprocal lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_reciprocal_lattice_vector_y",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_reciprocal_lattice_vectors"
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      ],
      "units": "m^-1"
    }, {
      "description": "z component of reciprocal lattice vector",
      "dtypeStr": "f",
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      "name": "x_exciting_geometry_reciprocal_lattice_vector_z",
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      "shape": [],
      "superNames": [
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        "x_exciting_section_reciprocal_lattice_vectors"
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      ],
      "units": "m^-1"
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    }, {
      "description": "Maximum length of |G+k| for APW functions",
      "dtypeStr": "f",
      "name": "x_exciting_gkmax",
      "superNames": [
        "section_system"
      ],
      "units": "m^-1"
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    }, {
      "description": "Maximum length of |G|",
      "dtypeStr": "f",
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      "name": "x_exciting_gmaxvr",
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      "superNames": [
        "section_system"
      ],
      "units": "m^-1"
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    }, {
      "description": "number of points in the mesh to calculate the Fermi surface",
      "dtypeStr": "i",
      "name": "x_exciting_grid_fermi_surface",
      "repeats": true,
      "shape": [
        3
      ],
      "superNames": [
        "x_exciting_section_fermi_surface"
      ]
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    }, {
      "description": "G-vector grid size x",
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      "dtypeStr": "i",
      "name": "x_exciting_gvector_size_x",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "G-vector grid size y",
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      "dtypeStr": "i",
      "name": "x_exciting_gvector_size_y",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "G-vector grid size z",
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      "dtypeStr": "i",
      "name": "x_exciting_gvector_size_z",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "G-vector total",
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      "dtypeStr": "i",
      "name": "x_exciting_gvector_total",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "Maximum Hamiltonian size",
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      "dtypeStr": "i",
      "name": "x_exciting_hamiltonian_size",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "time for scf in geometry optimization",
      "dtypeStr": "f",
      "name": "x_exciting_geometry_dummy",
      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
      "description": "Hartree energy",
      "dtypeStr": "f",
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      "name": "x_exciting_hartree_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
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    },{
      "description": "section for geometry optimization",
      "kindStr": "type_section",
      "name": "x_exciting_section_geometry_optimization",
      "superNames": [
        "section_run"
      ]
    }, {
      "description": "Maximum force magnitude in geometry optimization",
      "dtypeStr": "f",
      "name": "x_exciting_maximum_force_magnitude",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
    }, {
      "description": "Value of threshold for the force modulus as convergence criterion of the geometry_optimization_method used in exciting",
      "dtypeStr": "f",
      "name": "x_exciting_geometry_optimization_threshold_force",
      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "N"
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    }, {
      "description": "Hartree energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_hartree_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
      "description": "exciting IBS force convergence",
      "dtypeStr": "f",
      "name": "x_exciting_IBS_force_convergence_scf_iteration",
      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ]
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    }, {
      "description": "Interstitial charge",
      "dtypeStr": "f",
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      "name": "x_exciting_interstitial_charge_scf_iteration",
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      "shape": [],
      "superNames": [
        "section_scf_iteration"
      ],
      "units": "C"
    }, {
      "description": "Interstitial charge",
      "dtypeStr": "f",
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      "name": "x_exciting_interstitial_charge",
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      "shape": [],
      "superNames": [
        "section_single_configuration_calculation"
      ],
      "units": "C"
    }, {
      "description": "K-points offset x component",
      "dtypeStr": "f",
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      "name": "x_exciting_kpoint_offset_x",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "K-points offset y component",
      "dtypeStr": "f",
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      "name": "x_exciting_kpoint_offset_y",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "K-points offset z component",
      "dtypeStr": "f",
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      "name": "x_exciting_kpoint_offset_z",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "Angular momentum cut-off for the APW functions",
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      "dtypeStr": "i",
      "name": "x_exciting_lmaxapw",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "Total number of local-orbitals",
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      "dtypeStr": "i",
      "name": "x_exciting_lo",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "Madelung energy",
      "dtypeStr": "f",
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      "name": "x_exciting_madelung_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Madelung energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_madelung_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
      "description": "muffin-tin points",
      "dtypeStr": "i",
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      "name": "x_exciting_muffin_tin_points",
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      "repeats": true,
      "shape": [],
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      "superNames": [
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        "x_exciting_section_atoms_group"
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      ]
    }, {
      "description": "muffin-tin radius",
      "dtypeStr": "f",
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      "name": "x_exciting_muffin_tin_radius",
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      "repeats": true,
      "shape": [],
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      "superNames": [
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        "x_exciting_section_atoms_group"
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      ],
      "units": "m"
    }, {
      "description": "Nuclear charge",
      "dtypeStr": "f",
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      "name": "x_exciting_nuclear_charge",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "Nuclear-nuclear energy",
      "dtypeStr": "f",
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      "name": "x_exciting_nuclear_nuclear_energy_scf_iteration",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_scf_iteration"
      ],
      "units": "J"
    }, {
      "description": "Nuclear-nuclear energy final",
      "dtypeStr": "f",
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      "name": "x_exciting_nuclear_nuclear_energy",
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      "shape": [],
      "superNames": [
        "energy_component",
        "section_single_configuration_calculation"
      ],
      "units": "J"
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    }, {
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      "description": "number k-points x",
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      "dtypeStr": "i",
      "name": "x_exciting_number_kpoint_x",
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      "superNames": [
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        "section_system"
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      ]
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    }, {
      "description": "number k-points y",
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      "dtypeStr": "i",
      "name": "x_exciting_number_kpoint_y",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "number k-points z",
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      "dtypeStr": "i",
      "name": "x_exciting_number_kpoint_z",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "number k-points",
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      "dtypeStr": "i",
      "name": "x_exciting_number_kpoints",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "Specifies the threshold for the x_exciting_energy_total_scf_iteration change between two subsequent self-consistent field (SCF) iterations.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_energy_change",
      "repeats": true,
      "shape": [],
      "superNames": [
        "settings_scf"
      ],
      "units": "J"
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    }, {
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      "description": "Specifies the threshold for the x_exciting_effective_potential_convergence between two subsequent self-consistent field (SCF) iterations.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_potential_change_list",
      "repeats": true,
      "shape": [],
      "superNames": [
        "settings_scf"
      ],
      "units": "J"
    }, {
      "description": "Specifies the threshold for the x_exciting_effective_potential_convergence between two subsequent self-consistent field (SCF) iterations.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_potential_change",
      "repeats": false,
      "shape": [],
      "superNames": [
        "settings_scf"
      ],
      "units": "J"
    }, {
      "description": "Specifies the threshold for the x_exciting_effective_potential_convergence between two subsequent self-consistent field (SCF) iterations.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_charge_change_list",
      "repeats": true,
      "shape": [],
      "superNames": [
        "settings_scf"
      ]
    }, {
      "description": "Specifies the threshold for the x_exciting_effective_potential_convergence between two subsequent self-consistent field (SCF) iterations.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_charge_change",
      "repeats": false,
      "shape": [],
      "superNames": [
        "settings_scf"
      ]
    }, {
      "description": "Convergence tolerance for forces (not including IBS contribution) during the SCF run.",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_force_change_list",
      "repeats": true,
      "shape": [],
      "superNames": [
        "settings_scf"
      ]
    }, {
      "description": "Convergence tolerance for forces (not including IBS contribution) during the SCF run",
      "dtypeStr": "f",
      "name": "x_exciting_scf_threshold_force_change",
      "repeats": false,
      "shape": [],
      "superNames": [
        "settings_scf"
      ]
    },  {
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      "description": "The number of atoms in the unit cell",
      "dtypeStr": "i",
      "name": "x_exciting_number_of_atoms",
      "shape": [],
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      "superNames": [
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        "section_run",
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        "section_system"
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      ]
    }, {
      "description": "Number of bands for fermi surface",
      "dtypeStr": "i",
      "name": "x_exciting_number_of_bands_fermi_surface",
      "shape": [],
      "superNames": [
        "x_exciting_section_fermi_surface"
      ]
    }, {
      "description": "Number of mesh points for fermi surface",
      "dtypeStr": "i",
      "name": "x_exciting_number_of_mesh_points_fermi_surface",
      "shape": [],
      "superNames": [
        "x_exciting_section_fermi_surface"
      ]
    }, {
      "description": "Origin (in lattice coordinate) of the region where the Fermi surface is calculated",
      "dtypeStr": "f",
      "name": "x_exciting_origin_fermi_surface",
      "repeats": true,
      "shape": [
        3
      ],
      "superNames": [
        "x_exciting_section_fermi_surface"
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      ]
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    }, {
      "description": "Mixing type for potential",
      "dtypeStr": "C",
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      "name": "x_exciting_potential_mixing",
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      "superNames": [
        "section_system"
      ]
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    },{
      "description": "whether the atomic positions are given in cartesian or vector coordinates",
      "dtypeStr": "C",
      "name": "x_exciting_atom_position_format",
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
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    }, {
      "description": "whether the magnetic field is given in cartesian or vector coordinates",
      "dtypeStr": "C",
      "name": "x_exciting_magnetic_field_format",
      "superNames": [
        "x_exciting_section_atoms_group"
      ]
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    },  {
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      "description": "Maximum number of plane-waves",
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      "dtypeStr": "i",
      "name": "x_exciting_pw",
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      "superNames": [
        "section_system"
      ]
    }, {
      "description": "Radius MT * Gmax",
      "dtypeStr": "f",
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      "name": "x_exciting_rgkmax",
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      "superNames": [
        "section_system"
      ],
      "units": "m"
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    }, {
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      "description": "a group of atoms of the same type",
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      "kindStr": "type_section",
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      "name": "x_exciting_section_atoms_group",
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      "superNames": [
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        "section_system"
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      ]
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    }, {
      "description": "bandstructure values",
      "kindStr": "type_section",
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      "name": "x_exciting_section_bandstructure",
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      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
      "description": "dos values",
      "kindStr": "type_section",
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      "name": "x_exciting_section_dos",
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      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
      "description": "Fermi surface values",
      "kindStr": "type_section",
      "name": "x_exciting_section_fermi_surface",
      "superNames": [
        "section_single_configuration_calculation"
      ]
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    }, {
      "description": "lattice vectors",
      "kindStr": "type_section",
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      "name": "x_exciting_section_lattice_vectors",
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      "superNames": [
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        "section_system"
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      ]
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    }, {
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      "description": "reciprocal lattice vectors",
      "kindStr": "type_section",
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      "name": "x_exciting_section_reciprocal_lattice_vectors",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "section for exciting spin treatment",
      "kindStr": "type_section",
      "name": "x_exciting_section_spin",
      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "index for exciting functional",
      "kindStr": "type_section",
      "name": "x_exciting_section_xc",
      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "Reciprocal lattice vectors (in Cartesian coordinates) of the simulation cell. The first index runs over the $x,y,z$ Cartesian coordinates, and the second index runs over the 3 lattice vectors.",
      "dtypeStr": "f",
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      "name": "x_exciting_simulation_reciprocal_cell",
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      "repeats": false,
      "shape": [
        3,
        3
      ],
      "superNames": [
        "configuration_core"
      ],
      "units": "m"
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    }, {
      "description": "Smearing scheme for KS occupancies",
      "dtypeStr": "C",
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      "name": "x_exciting_smearing_type",
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      "superNames": [
        "section_system"
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      ]
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    }, {
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      "description": "Smearing width for KS occupancies",
      "dtypeStr": "f",
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      "name": "x_exciting_smearing_width",
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      "superNames": [
        "section_system"
      ]
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    }, {
      "description": "Spin treatment",
      "dtypeStr": "C",
      "name": "x_exciting_spin_treatment",
      "superNames": [
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        "x_exciting_section_spin"
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      ]
    }, {
      "description": "Temporary storing converged atom forces cartesian",
      "dtypeStr": "C",
      "name": "x_exciting_store_total_forces",
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      "repeats": true,
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      "shape": [],
      "superNames": [
        "section_single_configuration_calculation",
        "section_run"
      ]
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    }, {
      "description": "scf iteration time",
      "dtypeStr": "f",
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      "name": "x_exciting_time_scf_iteration",
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