Strict Hierarchy for Quantum Channel Certification to Unitary

Abstract

We consider the problem of quantum channel certification to unitary, where one is given access to an unknown d-dimensional channel E, and wants to test whether E is equal to a target unitary channel or is -far from it in the diamond norm. We present optimal quantum algorithms for this problem, settling the query complexities in three access models with increasing power. Specifically, we show that: (i) (d/2) queries suffice for incoherent access model, matching the lower bound due to Fawzi, Flammarion, Garivier, and Oufkir (COLT 2023). (ii) (d/) queries suffice for coherent access model, matching the lower bound due to Regev and Schiff (ICALP 2008). (iii) (d/) queries suffice for source-code access model, matching the lower bound due to Jeon and Oh (npj Quantum Inf. 2026). This demonstrates a strict hierarchy of complexities for quantum channel certification to unitary across various access models.