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Use of spatiotemporal couplings and an axiparabola to control the velocity of peak intensity

Aaron Liberman, Ronan Lahaye, Slava Smartsev, Sheroy Tata, Salome Benracassa, A. A. Golovanov, E. Levine, C. Thaury, V. Malka

2024Optics Letters20 citationsDOIOpen Access PDF

Abstract

This paper presents the first experimental realization of a scheme that allows for the tuning of the velocity of peak intensity of a focal spot with relativistic intensity. By combining a tunable pulse-front curvature with the axial intensity deposition characteristics of an axiparabola, an aspheric optical element, this system provides control over the dynamics of laser-wakefield accelerators. We demonstrate the ability to modify the velocity of peak intensity of ultrashort laser pulses to be superluminal or subluminal. The experimental results are supported by theoretical calculations and simulations, strengthening the case for the axiparabola as a pertinent strategy to achieve more efficient acceleration.

Topics & Concepts

OpticsPhysicsAccelerationSuperluminal motionCurvatureLaserIntensity (physics)Group velocityPulse (music)Realization (probability)DetectorClassical mechanicsMathematicsAstronomyGeometryStatisticsLaser-Plasma Interactions and DiagnosticsLaser-Matter Interactions and ApplicationsAdvanced X-ray Imaging Techniques
Use of spatiotemporal couplings and an axiparabola to control the velocity of peak intensity | Litcius