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Controlling the velocity of a femtosecond laser pulse using refractive lenses

Spencer W. Jolly, O. Gobert, A. Jeandet, F. Quéré

2020Optics Express56 citationsDOIOpen Access PDF

Abstract

The combination of temporal chirp with a simple chromatic aberration known as longitudinal chromatism leads to extensive control over the velocity of laser intensity in the focal region of an ultrashort laser beam. We present the first implementation of this effect on a femtosecond laser. We demonstrate that by using a specially designed and characterized lens doublet to induce longitudinal chromatism, this velocity control can be implemented independent of the parameters of the focusing optic, thus allowing for great flexibility in experimental applications. Finally, we explain and demonstrate how this spatiotemporal phenomenon evolves when imaging the ultrashort pulse focus with a magnification different from unity.

Topics & Concepts

OpticsFemtosecondLaserLens (geology)Femtosecond pulse shapingChirpUltrashort pulseFocal lengthChromatic aberrationMaterials sciencePhysicsChromatic scaleLaser-Matter Interactions and ApplicationsOrbital Angular Momentum in OpticsLaser Material Processing Techniques
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