Quantum Computing Asked by Yaoling Yang on August 4, 2021
I have a question while reading the quantum fidelity definition in Wikipedia Fidelity of quantum states, at the end of the Definition section of quantum fidelity formula, it says Explicit expression for qubits. If rho and sigma are both qubit states, the fidelity can be computed as:
$$
F(rho, sigma)=operatorname{tr}(rho sigma)+2 sqrt{operatorname{det}(rho) operatorname{det}(sigma)}
$$
So I’m really confused about where this formula comes from. I tested several simple examples, it seems that the formula is not suitable to calculate the fidelity between two mixed states while the dimensions of the density matrices are not $2times2$ (e.g. for the case both of the two matrices are diag(0.5,0,0,0.5), the fidelity calculated by this formula is 0.5 not 1.
However, if one of the density matrices is in pure state, it seems the result now is always correct even though the dimensions of the density matrices are bigger than $2times2$.
I’m wondering how to prove this formula and is it always safe to use it while one of the density matrices is in pure state…
Thanks in advance!
The general expression for the fidelity is $$ F(rho,sigma)=left(text{Tr}sqrt{sqrt{rho}sigmasqrt{rho}}right)^2=(text{Tr}|sqrt{rhosigma}|)^2. $$ Assume $rho$ and $sigma$ are $2times 2$ matrices. Then $sqrt{rhosigma}$ is also a $2times 2$ matrix which we assume to have eigenvalues $lambda_1$ and $lambda_2$. Thus, $$ F=(|lambda_1|+|lambda_2|)^2=lambda_1^2+lambda_2^2+2|lambda_1lambda_2|. $$
However, we also have that $$ text{Tr}(rhosigma)=lambda_1^2+lambda_2^2 $$ and $$ text{det}(rhosigma)=lambda_1^2lambda_2^2, $$ so $sqrt{text{det}(rhosigma)}=|lambda_1lambda_2|$. So, that proves the relation specifically for $2times 2$ matrices. As you stated, it generally does not hold for larger matrices.
In the special case of $rho$ being pure, it does hold, but it's far easier simply to calculate $F=langlepsi|sigma|psirangle=text{Tr}(rhosigma)$.
Correct answer by DaftWullie on August 4, 2021
The proof from Jozsa, Richard (1994). Fidelity for the Mixed Quantum States. Journal of Modern Optics, 41(12), 2315–2323. doi:10.1080/09500349414552171
Let $M = sqrt rho sigma sqrtrho$. It's a positive semidefinite 2x2 matrix, so its eigenvalues are $lambda_1, lambda_2 geq 0$. Then we have
$$F(rho,sigma) = (trsqrt M) ^2= (sqrtlambda_1 + sqrtlambda_2)^2 $$ $$ = lambda_1 + lambda_2 + 2sqrt{lambda_1 lambda_2} = tr(M) + 2sqrt{det M} $$ $$ = tr(rhosigma) + 2sqrt{det{rho}det{sigma}} $$ where the last step uses cyclicity of trace and multiplication of determinants.
Answered by MaudPieTheRocktorate on August 4, 2021
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