Ion motion in laser-driven microchannels creates a self-organized regime with enhanced peak fields and high charge/photon conversion efficiency, governed by similarity parameters relating pulse duration, spot size, and intensity to channel scales.
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Ion-motion-driven enhancement of energy coupling and stability in relativistic laser-microchannel interaction
Ion motion in laser-driven microchannels creates a self-organized regime with enhanced peak fields and high charge/photon conversion efficiency, governed by similarity parameters relating pulse duration, spot size, and intensity to channel scales.