Integrates a diffusion prior into Richardson-Lucy deconvolution to reduce noise amplification and better preserve filamentous and punctate structures in low-photon fluorescence microscopy.
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2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Lattice softness and ionic geometric frustration are linked through a renormalized free-energy landscape that reduces barriers and promotes collective diffusion, shown via derivation and simulations on LLZO and AgCrSe2.
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Improving Richardson--Lucy Deconvolution with Diffusion Priors for Fluorescence Microscopy
Integrates a diffusion prior into Richardson-Lucy deconvolution to reduce noise amplification and better preserve filamentous and punctate structures in low-photon fluorescence microscopy.
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Lattice-mediated Geometric Frustration Drives Fast Ionic Transport
Lattice softness and ionic geometric frustration are linked through a renormalized free-energy landscape that reduces barriers and promotes collective diffusion, shown via derivation and simulations on LLZO and AgCrSe2.