A generalized diffusion-reaction model on fractal substrates with dimension D and fractional parameter θ predicts suppressed long-range oxygen transport and persistent non-Gaussian profiles in tumors versus normal tissues.
FLASH: New intersection of physics, chemistry, biol- ogy, and cancer medicine
3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
A heuristic model attributes underscreening in concentrated electrolytes to binding-induced diffusion barriers that suppress mobile particle concentration and increase screening length.
Monte Carlo dosimetry study finds that laser-accelerated VHEE pencil beams can cover a brain tumor through scanning, with energy spread affecting dose uniformity and FLASH tissue-sparing modeled as a potential benefit.
citing papers explorer
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Fractal geometry-governed oxygen diffusion: Tumors vs. Normal Tissues
A generalized diffusion-reaction model on fractal substrates with dimension D and fractional parameter θ predicts suppressed long-range oxygen transport and persistent non-Gaussian profiles in tumors versus normal tissues.
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Underscreening and related phenomena in concentrated electrolytes
A heuristic model attributes underscreening in concentrated electrolytes to binding-induced diffusion barriers that suppress mobile particle concentration and increase screening length.
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Potential pof laser-driven VHEEs towards FLASH radiotherapy: Monte Carlo dosimetric study of single-field pencil beam scanning of a brain tumor
Monte Carlo dosimetry study finds that laser-accelerated VHEE pencil beams can cover a brain tumor through scanning, with energy spread affecting dose uniformity and FLASH tissue-sparing modeled as a potential benefit.