Spatiotemporal control of high-intensity laser pulses using a plasma lens

Dion Li; Kyle Glen Miller; Jacob R Pierce; Warren B Mori; Alec G.R. Thomas; John P Palastro

Spatiotemporal control of high-intensity laser pulses using a plasma lens

ORAL

Abstract

Spatiotemporal control encompasses a variety of techniques for producing laser pulses with dynamic intensity peaks that move independently of the group velocity. This controlled motion of the intensity peak offers a new approach to optimizing laser-based applications and enhancing signatures of fundamental phenomena. Here, we demonstrate spatiotemporal control with a plasma optic. A chirped laser pulse focused by a plasma lens exhibits a moving focal point, or "flying focus," that can travel at an arbitrary, predetermined velocity. Unlike currently used conventional or adaptive optics, a plasma lens can be located close to the interaction region and can operate at an orders of magnitude higher, near-relativistic intensity.

Oct. 7, 2024, 3:24 PM – Oct. 7, 2024, 3:36 PM

Publication: D. Li, K. G. Miller, J. R. Pierce, W. B. Mori, A. G. R. Thomas, and J. P. Palastro, Spatiotemporal control of high-intensity laser pulses with a plasma lens, Physical Review Research, 6, 013272 (2024).

Presenters

Dion Li

Massachusetts Institute of Technology

Authors

Dion Li

Massachusetts Institute of Technology
Kyle Glen Miller

Laboratory for Laser Energetics, University of Rochester, Laboratory for Laser Energetics (LLE)
Jacob R Pierce

University of California, Los Angeles
Warren B Mori

University of California, Los Angeles
Alec G.R. Thomas

University of Michigan, Michigan University
John P Palastro

Laboratory for Laser Energetics, University of Rochester, University of Rochester, Laboratory for Laser Energetics (LLE)