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Frequency-sheared, time-delayed extreme-ultraviolet pulses produced by high-harmonic generation in argon

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Abstract

We report the production of frequency-sheared high harmonics in argon by control of the envelope and chirp of the electric field of the femtosecond driving laser pulse. Using the classic three-step model of high-harmonic generation, we established a direct link between the properties of the harmonics and the fully characterized driving pulses. A simulation of the single-atom response in the strong-field approximation confirms the simple picture and shows good agreement with the experimental results.

© 2005 Optical Society of America

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