Strong Gravitational Lensing Inversion L1-368

AstrophysicsGravitational lensingδ=10 · hardL_DAG = 4.2📋 Stub — not mineable

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Unclaimed Principle — open for contribution

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Forward model E

I_{o} b s (t h e t a) = in t e g r a l P S F (t h e t a - t h e t a^{'}) \cdot I_{s} r c (b e t a (t h e t a^{'}, k a pp a)) d t h e t a^{'} + n o i se

Strong Gravitational Lensing Inversion: Strong lensing inversion: reconstruct lens mass distribution and source surface brightness from multiply-imaged arcs. The forward operator produces the measurement through a 3-node primitive DAG (M.lens.deflection…); recovery is posed as a nonlinear_inverse problem. Difficulty tier delta=10 with effective condition number kappa_eff~5000; PSF_mismatch, line_of_sight_contamination set the accuracy floor at the Omega boundary. See the forward_model field for the closed-form equation.

L-DAG

L.linear_op -> S.source.pixelization -> O.chi2.image_plane

L.linear_opS.source.pixelizationO.chi2.image_plane

Well-posedness W

Existence:: true
Uniqueness:: true
Stability:: conditional
κ:: 1000000

Existence of the recovered 2D_lens_mass_distribution is guaranteed within the declared Omega bounds. Uniqueness holds on the measurement-supported subspace; out-of-support modes are controlled by declared priors. Stability is conditionally stable (kappa_eff ~= 5000); PSF_mismatch dominates the stability cliff; the remaining mismatch parameters contribute higher-order bias terms. Shot poisson sets the irreducible data-fidelity floor.

Solvability C

Solver class:: classical [pixelized_source_inversion (Warren_Dye) or semi_linear_inversion (Vegetti_Koopmans)]
Convergence rate q:: 2
Complexity:: O(N_src_pix * N_img_pix ** 2) for linear inversion per iteration

Specs (0)

No L2 specs registered yet for this principle.