Dominik Walter scite author profile

We demonstrate the control of high-harmonic generation in a hollow fiber by shaping the spatial structure of the generating laser pulse. We use a liquid-crystal-based two-dimensional spatial light modulator to control the spatial phase of the driver pulse. An evolutionary algorithm finds the spatial laser phase distribution that is optimal for reaching maximum total harmonic yield and for selectively enhancing the cutoff region of the spectrum. We show that enhacement of harmonic generation is related to coupling into a single fiber mode. Our results directly show that spatial properties of the laser are important parameters in fully controlling the high-harmonic spectrum. It is thus not possible to derive the controllability of the high-harmonic generation from the single-atom response only.

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High-harmonic generation and plasma radiation from water microdroplets

Flettner

Pfeifer

Walter

et al. 2003

Appl. Phys. B

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Transient enhancement of high-order harmonic generation in expanding molecules

et al. 2004

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Adaptive spatial control of fiber modes and their excitation for high-harmonic generation

et al. 2006

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We present the control of high-harmonic generation (HHG) in hollow fibers using adaptive pulse shaping techniques. The shaping capabilities of our spatial light modulator (SLM) are demonstrated by the excitation of specific fiber modes inside a hollow fiber with a helium-neon laser. Afterwards spatially shaped ultrashort pulses are used to generate phase-matched high-harmonic radiation in a fiber. We show that by controlling the mode structure, we can manipulate the spatial and spectral properties of the generated harmonics.

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Dominik Walter

Controlling the spectral shape of coherent soft X-rays

Spatial control of high-harmonic generation in hollow fibers

High-harmonic generation and plasma radiation from water microdroplets

Transient enhancement of high-order harmonic generation in expanding molecules

Adaptive spatial control of fiber modes and their excitation for high-harmonic generation

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