Quantum Interference-Induced Bhattacharyya Distance
Abstract
We propose a quantum distance measure between probability distributions encoded in quantum states based on the fragility of quantum interference under entangling evolution. The Quantum Interference-Induced Bhattacharyya Distance (QIBD) is defined through a single-ancilla interferometric circuit in which an interaction Hamiltonian generates correlation-dependent phases that modulate interference visibility. When the interaction vanishes, QIBD reduces to the classical Bhattacharyya distance; however, for entangling interactions, it cannot be expressed as a function of fidelity alone. Numerical simulations demonstrate that QIBD responds to correlation structure in ways that overlap-based measures do not, suggesting potential utility in contexts where interaction-aligned correlations are physically relevant.
Cite
@article{arxiv.2601.05749,
title = {Quantum Interference-Induced Bhattacharyya Distance},
author = {Mostafizur Rahaman Laskar},
journal= {arXiv preprint arXiv:2601.05749},
year = {2026}
}
Comments
This work is part of an ongoing project and may be revised for journal submission. The arXiv version may be removed after publication