English

Efficient direct quantum state tomography using fan-out couplings

Quantum Physics 2026-04-07 v1

Abstract

Characterizing quantum states is essential for validating quantum devices, yet conventional quantum state tomography becomes prohibitively expensive as system size grows. Direct tomography offers a distinct route by enabling selective access to individual complex density-matrix elements, with a particular advantage for sparse target states and some verification tasks. Here we introduce a direct quantum state tomography scheme combining strong-measurement estimation with a fan-out coupling architecture. It enables mutually commuting interactions between system qubits and a single meter qubit, thereby achieving constant circuit depth, independent of system size. Notably, the involutory fan-out coupling reduces to the identity under repetition, enabling straightforward noise scaling for quantum error mitigation. We experimentally validate the scheme on a superconducting quantum processor via the IBM Quantum Platform, demonstrating four-qubit state reconstruction and single-circuit GHZ-state fidelity estimation up to 20 qubits with error mitigation. Consistent results with standard tomography and improved efficiency establish our scheme as a promising approach to reconstructing full quantum states and scalable verification tasks.

Keywords

Cite

@article{arxiv.2604.04454,
  title  = {Efficient direct quantum state tomography using fan-out couplings},
  author = {Jaekwon Chang and Guedong Park and Hyunseok Jeong and Yong Siah Teo and Yosep Kim},
  journal= {arXiv preprint arXiv:2604.04454},
  year   = {2026}
}

Comments

10 pages

R2 v1 2026-07-01T11:54:58.943Z