Stronger sum uncertainty relations for non-Hermitian operators

Unlike the uncertainty relationships of two arbitrary incompatible observables represented by the product of variances in the past, representing them by the sum of variances is better as it guarantees to be nontrivial for two incompatible operators in some special cases. Although the uncertainty relation is formulated as the sum of variances for unitary operators has been confirmed, its general forms for arbitrary non-Hermitian operators have not been yet investigated in detail. Thus, this study develops four sum uncertainty relations for arbitrary non-Hermitian operators acting on system states by utilizing an appropriate Hilbert-space metric. The compatible forms of our sum inequalities with the conventional quantum mechanics are also provided via $G$-metric formalism. Concrete examples demonstrate the validity of the purposed sum uncertainty relations in both $\mathcal{PT}$-symmetric and $\mathcal{PT}$-broken phases. The proposed methods and results can help the reader to understand in-depth the usefulness of $G$-metric formalism in non-Hermitian quantum mechanics and the sum uncertainty relations of incompatible operators within.