English

Quantum-Enhanced Single-Parameter Phase Estimation with Adaptive NOON States

Quantum Physics 2026-05-19 v4

Abstract

Quantum metrology promises phase sensitivity surpassing the shot-noise limit by exploiting entanglement and photon-number correlations. NOON states-maximally path-entangled NN-photon superpositions (N,0+0,N)/2(|N,0\rangle + |0,N\rangle)/\sqrt{2} -achieve the Heisenberg limit 1/N1/N for single-parameter estimation, as demonstrated experimentally by Afek et al. (2010) using hybrid coherent-plus-squeezed light up to N=5N=5. We present an end-to-end differentiable quantum-optical framework-implemented in Strawberry Fields (Killoran et al., 2019) with a TensorFlow backend -that learns optimal circuit parameters by maximising the classical Fisher information (CFI) across all coincidence channels for N=2,3,4,5N=2,3,4,5. Starting from proper numerical reproductions of the Afek et al. coincidence fringes, verified by FFT analysis and parity measurements, we apply gradient descent (Adam) to the eight trainable circuit parameters. Raw CFI improvements grow dramatically with photon number: +153%+153\% (N=2N=2), +834%+834\% to +956%+956\% (N=3N=3), +829%+829\% to +1598%+1598\% (N=4N=4), and +1775%+1775\% (N=5N=5), alongside post-selection rate improvements of +153%+153\% to +3269%+3269\%, and an 8×8\times to 133×133\times improvement in useful measurement events per pulse across N=2N=2-55. A fundamental inter-channel trade-off is identified at N=2N=2 but weakens at higher NN where the Afek initialisation is further from optimal. These results provide numerically rigorous benchmarks for adaptive single-parameter quantum sensing and demonstrate that the Afek working point is significantly suboptimal at N3N\geq 3. QFI calculations confirm that the optimised probe reaches 82%82\% of the Heisenberg limit at N=2N=2 and improves from 36%36\% to 58%58\% at N=5N=5, while useful measurement events per pulse improve by 8×8\times to 133×133\times across all NN, making quantum-enhanced sensing at N3N\geq 3 experimentally practical.

Keywords

Cite

@article{arxiv.2604.12323,
  title  = {Quantum-Enhanced Single-Parameter Phase Estimation with Adaptive NOON States},
  author = {Simanshu Kumar and Nandan S Bisht},
  journal= {arXiv preprint arXiv:2604.12323},
  year   = {2026}
}

Comments

v4: Corrected DOIs for refs 8, 14, 18, 21, 26; reordered bibliography to strict first-citation order; removed duplicate sentence from Acknowledgements; minor figure placement adjustment., added Zenodo DOI (10.5281/zenodo.20041907) and GitHub repository (https://github.com/simanshukumar369/noon-state-adaptive-metrology) to Data Availability

R2 v1 2026-07-01T12:08:02.524Z