En Route to a Standard QMA1 vs. QCMA Oracle Separation

Abstract

We study the power of quantum witnesses under perfect completeness. We construct a classical oracle relative to which a language lies in QMA1 but not in QCMA when the QCMA verifier is only allowed polynomially many adaptive rounds and exponentially many parallel queries per round. Additionally, we derandomize the permutation-oracle separation of Fefferman and Kimmel, obtaining an in-place oracle separation between QMA1 and QCMA. Furthermore, we focus on QCMA and QMA with an exponentially small gap, where we show a separation assuming the gap is fixed, but not when it may be arbitrarily small. Finally, we derive consequences for approximate ground-state preparation from sparse Hamiltonian oracle access, including a bounded-adaptivity frustration-free variant.