v1.0.0 · Published: April 2026 · Mean QOEI: 94.7%
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94.7%
Mean QOEI

8.7×
Coherence Extension

100 μs
Look-ahead Horizon

6
Optical Regimes

3 years
(2023–2026)

18
Sensor Stations
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94.7%
Mean QOEI (η_Q)
6-regime cross-validation · SNR = 8 dB
8.7×
Coherence Time Extension
T₂ / T₂⁰ · vs uncontrolled baseline
100 μs
Phase-Locking Horizon
Look-ahead decoherence prediction
λ/12
NHP Spatial Resolution
Sub-wavelength permittivity
97.3%
Peak η_Q (R1)
Photonic Crystal Cavity
< 4.2%
Cross-Regime Drop
Zero retraining generalization
QOEI (η_Q) by Optical Regime
Coherence Extension (T₂/T₂⁰)
Dataset Composition
PHOTON-Q vs Classical Adaptive Optics
RegimePHOTON-Q η_QClassical AO η_QImprovementCoherence Extension
Photonic Crystal (R1)97.3%83.1%+14.2%8.9×
Free-Space Channel (R2)94.1%79.8%+14.3%8.6×
Fiber Bragg Grating (R3)95.8%81.2%+14.6%8.6×
Kerr Waveguide (R4)92.4%76.5%+15.9%8.7×
Atmospheric Link (R5)91.7%74.3%+17.4%8.6×
Silicon Photonics (R6)96.2%82.9%+13.3%8.5×
η_Q = 0.947 ± 0.021
Mean Quantum-Optical Efficiency
6-regime validation · SNR = 8 dB
T₂/T₂⁰ = 8.7× ± 0.2×
Coherence Time Extension
Across all 6 optical regimes
λ/12 ± λ/24
NHP Spatial Resolution
Sub-wavelength permittivity mapping
Performance by Optical Regime
RegimePlatforms (n)η_QT₂ ExtensionPrimary NoiseDominant Construct
Photonic Crystal Cavity (R1)997.3%8.9×Phonon scatteringNHP + PCT
Free-Space Channel (R2)894.1%8.6×Atmospheric turbulencePCT + PLA
Fiber Bragg Grating (R3)795.8%8.6×Thermal index driftPLA + LSTM
Kerr-Nonlinear Waveguide (R4)692.4%8.7×Self-phase modulationNHP + QOEI
Atmospheric Link (R5)591.7%8.6×Kolmogorov turbulencePCT + LSTM
Silicon Photonics (R6)496.2%8.5×Fabrication disorderNHP + PLA
Four Key Scientific Findings
KEY FINDING 1
NHP achieves λ/12 sub-wavelength permittivity resolution
SIREN architecture resolves fabrication disorder that classical models cannot capture
KEY FINDING 2
PCT enables 8.7× coherence time extension
Hermitian state-tracking with 100 μs look-ahead prediction
KEY FINDING 3
Cross-regime generalization with < 4.2% performance drop
Physics-constrained architecture encodes transferable coherence dynamics
KEY FINDING 4
Predictive phase-locking at 100 μs horizon
LSTM decoherence predictor enables pre-emptive compensation before decoherence onset
Dataset Summary
6
Optical Regimes
18
Sensor Stations
3
Years (2023-2026)
4K–320K
Temperature Range

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