English

Hallucination, abstention, and computable inseparability

Logic 2026-05-07 v2

Abstract

The impossibility of eliminating hallucination, understood here as incorrect definite answers, in sufficiently expressive yes-or-no formal domains is an immediate consequence of classical undecidability theorems. This note does not revisit that forced-answer obstruction as its main claim. Instead, it attempts to formally describe the corresponding limitation for abstaining systems. Abstention can trivially avoid hallucination if the system is allowed to abstain on every input; the substantive question is how large the domain of guaranteed correct non-abstaining answers can be. We formulate this question using separation in the arithmetical hierarchy. Given disjoint sets AA and BB, any system that answers Yes on all queries indexed by AA and No on all queries indexed by BB induces a separator of AA from BB. By combining this observation with the classical existence theorem of Δn0\Delta_{n}^{0}-inseparable pairs of Σn0\Sigma_{n}^{0}-sets, we yield a computability-theoretic trade-off between avoiding hallucination by abstention and maintaining a large domain of guaranteed coverage.

Keywords

Cite

@article{arxiv.2604.28067,
  title  = {Hallucination, abstention, and computable inseparability},
  author = {Takuma Imamura},
  journal= {arXiv preprint arXiv:2604.28067},
  year   = {2026}
}
R2 v1 2026-07-01T12:43:56.025Z