Fluorescence Lifetime Imaging Microscopy (FLIM) L1-007

MicroscopyTime-correlated single photon countingδ=3 · standardL_DAG = 3📋 Stub — not mineable

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Unclaimed Principle — open for contribution

This Principle is declared in the catalog but has no reference solver, no pinned dataset, and is not registered on-chain. There is no reward pool. Submitting a cert against this Principle today will record the cert for reproducibility but pay zero PWM.

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Forward model E

h_{ij} (t) = I R F (t) co n v k \sum a_{k} e x p (- t / t a u_{k}) + n_{b} g

Fluorescence Lifetime Imaging Microscopy (FLIM): tcspc lifetime produces the measurement through a 3-node primitive DAG L.excitation.pulsed -> D.tcspc_histogram -> int.temporal, with time-integrated exposure and photon-shot-noise-limited (Poisson counting). Recovery is posed as a non-convex inverse problem that inverts the forward operator to estimate the scene-side 2D lifetime. Difficulty tier delta=3 with effective condition number kappa_eff~12; calibration-level mismatch (IRF_shape_drift, afterpulsing_rate, ambient_fluorescence) sets the accuracy floor at the Omega boundary. See the forward_model field for the closed-form imaging equation.

L-DAG

L.excitation.pulsed -> D.tcspc_histogram -> int.temporal

L.excitation.pulsedD.tcspc_histogramint.temporal

Well-posedness W

Existence:: true
Uniqueness:: true
Stability:: conditional
κ:: 240

Existence of the recovered 2D lifetime is guaranteed within the declared Omega bounds. Uniqueness is local rather than global (non-convex landscape); convergence depends on initialisation and priors. Stability is moderately conditioned (kappa_eff ~= 12); IRF_shape_drift dominates the stability cliff; afterpulsing_rate and the remaining mismatch parameters contribute higher-order bias terms. Photon-shot-noise-limited (poisson counting) sets the irreducible data-fidelity floor, while mild Tikhonov or analytic inversion is sufficient at the nominal Omega point.

Solvability C

Solver class:: linear-operator + convex optimisation [LS-Exp-Fit] | analytic / closed-form + post-processing [Phasor] | linear-operator + deep neural prior [FLIMNet]
Convergence rate q:: 2
Complexity:: O(H * W * N_spectral_bins * log(...)) per iteration; learned variants: O(H W Z * F_theta_cost) per forward pass

Specs (0)

No L2 specs registered yet for this principle.