Theory of Laser Induced Strong-Field Ionization Tomographic Imaging

Abstract

Laser-induced strong-field ionization tomography (LISFIT) is an emerging space-time tomographic modality with the potential to revolutionize imaging capabilities. To fully harness its power, a robust theoretical framework is essential. This work delves into the fundamental physics of strong-field ionization and its implications for tomographic imaging. Our analysis reveals an operational regime with significant resolution enhancement and unique intensity-resolution coupling, alongside localization phenomena rooted in the physics of strong-field interactions. We further identify a trade-off between resolution, localization extent, and signal-to-noise ratio, providing critical insights for optimizing experimental parameters.

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