triqs.gfs.backwd_compat.gf_retime.GfReTime.fit_hermitian_tail
- GfReTime.fit_hermitian_tail(*args, **kw)
Dispatched C++ function(s).
[1] (g: Gf[MeshImFreq, 2], known_moments: ndarray[complex, 3] = []) -> tuple[ndarray[complex, 3], float] [2] (g: Gf[MeshImFreq, 0], known_moments: ndarray[complex, 1] = []) -> tuple[ndarray[complex, 1], float] [3] (bg: BlockGf[MeshImFreq, 2], known_moments: [ndarray[complex, 3]] = <unprintable>) -> tuple[[ndarray[complex, 3]], float] [4] (bg: BlockGf[MeshImFreq, 0], known_moments: [ndarray[complex, 1]] = <unprintable>) -> tuple[[ndarray[complex, 1]], float]
[1, 2] Fit the high-frequency tail of a Green’s function, imposing hermitian symmetry on the fitted moments.
The symmetry constraint is \(G_{i,j}(i\omega) = G_{j,i}^*(-i\omega)\).
[3, 4] Fit the high-frequency tail of a block Green’s function, imposing hermitian symmetry block by block.
The symmetry constraint is \(G_{i,j}(i\omega) = G_{j,i}^*(-i\omega)\).
Each block is fitted independently with the same symmetry constraint. The returned error is the maximum across blocks.
- Parameters:
- gGf[MeshImFreq, 2], Gf[MeshImFreq, 0]
The Green’s function whose tail is to be fitted.
- known_momentsndarray[complex, 3], ndarray[complex, 1]
Array of known high-frequency moments to constrain the fit.
- bgBlockGf[MeshImFreq, 2], BlockGf[MeshImFreq, 0]
The block Green’s function whose tail is to be fitted.
- Returns:
- [1]tuple[ndarray[complex, 3], float]
A pair containing the fitted tail moments and the fitting error.
- [2]tuple[ndarray[complex, 1], float]
A pair containing the fitted tail moments and the fitting error.
- [3]tuple[[ndarray[complex, 3]], float]
A pair containing the per-block fitted tail moments and the worst-block fitting error.
- [4]tuple[[ndarray[complex, 1]], float]
A pair containing the per-block fitted tail moments and the worst-block fitting error.