state_metrics.hilbert_schmidt¶

Hilbert-Schmidt metric is a distance metric used to generate an entanglement measure.

Functions¶

hilbert_schmidt(rho, sigma)

Compute the Hilbert-Schmidt distance between two states [1].

Module Contents¶

state_metrics.hilbert_schmidt.hilbert_schmidt(rho, sigma)¶

Compute the Hilbert-Schmidt distance between two states [1].

The Hilbert-Schmidt distance between density operators \(\rho\) and \(\sigma\) is defined as

\[D_{\text{HS}}(\rho, \sigma) = \text{Tr}((\rho - \sigma)^2) = \left\lVert \rho - \sigma \right\rVert_2^2.\]

Examples

One may consider taking the Hilbert-Schmidt distance between two Bell states. In |toqito⟩, one may accomplish this as

import numpy as np
from toqito.states import bell
from toqito.state_metrics import hilbert_schmidt

rho = bell(0) @ bell(0).conj().T
sigma = bell(3) @ bell(3).conj().T

np.around(hilbert_schmidt(rho, sigma), decimals=2)

np.float64(1.0)

References

Raises:

ValueError – If matrices are not density operators.

Parameters:

rho (numpy.ndarray) – An input matrix.
sigma (numpy.ndarray) – An input matrix.

Returns:

The Hilbert-Schmidt distance between rho and sigma.

Return type:

float