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1D-Coefficients#

We show the the coefficient mean \(\mu_c(\boldsymbol{\omega})\), the corresponding relative standard deviation \(\mu_c(\boldsymbol{\omega})\) and Covariance of real and imaginary parts. In the paper these would correspond to Figure 7a, 7b and 5, respectively for the six qubit case. Shown here are the plots for all qubit numbers.

3 Qubits#

Mean: Coefficients 3 Qubits - Mean Coefficients 3 Qubits - Mean

Relative Standard Deviation: Coefficients 3 Qubits - Mean Coefficients 3 Qubits - Mean

Covariance: Coefficients 3 Qubits - Mean Coefficients 3 Qubits - Mean

4 Qubits#

Mean: Coefficients 4 Qubits - Mean Coefficients 4 Qubits - Mean

Relative Standard Deviation: Coefficients 4 Qubits - Mean Coefficients 4 Qubits - Mean

Covariance: Coefficients 4 Qubits - Mean Coefficients 4 Qubits - Mean

5 Qubits#

Mean: Coefficients 5 Qubits - Mean Coefficients 5 Qubits - Mean

Relative Standard Deviation: Coefficients 5 Qubits - Mean Coefficients 5 Qubits - Mean

Covariance: Coefficients 5 Qubits - Mean Coefficients 5 Qubits - Mean

6 Qubits#

Mean (Figure 7a in our paper): Coefficients 6 Qubits - Mean Coefficients 6 Qubits - Mean

Relative Standard Deviation (Figure 7b in our paper): Coefficients 6 Qubits - Mean Coefficients 6 Qubits - Mean

Covariance: Coefficients 6 Qubits - Mean Coefficients 6 Qubits - Mean

Covariance -- selection (Figure 5 in our paper): Coefficiens 6 Qubits - Mean Coefficiens 6 Qubits - Mean