English

Parametrized Variational Quantum Tomography

Quantum Physics 2026-05-01 v1

Abstract

Quantum state tomography provides a fundamental framework for reconstructing quantum states. When the measurement data are not informationally complete, the observed statistics admit multiple compatible density matrices, making the reconstruction problem inherently underdetermined and calling for the selection of a meaningful estimator. Two well-established approaches to address this ambiguity are Maximum Entropy (MaxEnt) and Variational Quantum Tomography (VQT). A variant of VQT, named VQT_\infty, has been introduced to reproduce MaxEnt-like solutions. In this work, we generalize this approach by introducing a parametrized cost function that interpolates between the 1-norm and the infinity norm, thereby unifying VQT and VQT_\infty within a single framework. By tuning the associated hyperparameters, the proposed method enables controlled exploration of the set of compatible density matrices. We show that this interplay yields reconstructed states with higher fidelity to the MaxEnt solution than those obtained via VQT_\infty while preserving computational tractability.

Keywords

Cite

@article{arxiv.2604.27135,
  title  = {Parametrized Variational Quantum Tomography},
  author = {V. A. Penas and M. Losada and D. Tielas and F. Holik},
  journal= {arXiv preprint arXiv:2604.27135},
  year   = {2026}
}

Comments

9 pages, 14 figures

R2 v1 2026-07-01T12:42:17.782Z