Production of polarized particle beams via ultraintense laser pulses

TL;DR

This paper reviews how ultraintense laser pulses can generate polarized particle beams through strong-field QED processes, highlighting recent advances and potential applications in physics research.

Contribution

It provides a comprehensive overview of polarization effects in strong-field QED and recent proposals for producing polarized particles using laser interactions.

Findings

Polarized particle production is feasible via strong-field QED mechanisms.

Laser-driven polarized sources are high-brilliance and compact.

Recent proposals advance the understanding of polarization in laser-plasma interactions.

Abstract

High-energy spin-polarized electron, positron, and $\gamma$-photon beams have many significant applications in the study of material properties, nuclear structure, particle physics, and high-energy astrophysics. Thus,efficient production of such polarized beams attracts a broad spectrum of research interests. This is driven mainly by the rapid advancements in ultrashort and ultraintense laser technology. Currently available laser pulses can achieve peak intensities in the range of $10^{22}-10^{23}$ Wcm$^{-2}$, with pulse durations of tens of femtoseconds. The dynamics of particles in laser fields of the available intensities is dominated by quantum electrodynamics (QED) and the interaction mechanisms have reached regimes spanned by nonlinear multiphoton absorbtion (strong-field QED processes). In strong-field QED processes, the scattering cross sections obviously depend on the spin and polarization of the particles, and the spin-dependent photon emission and the radiation-reaction effects can be utilized to produce the polarized particles. An ultraintense laser-driven polarized particle source possesses the advantages of high-brilliance and compactness, which could open the way for the unexplored aspects in a range of researches. In this work, we briefly review the seminal conclusions from the study of the polarization effects in strong-field QED processes, as well as the progress made by recent proposals for production of the polarized particles by laser-beam or laser-plasma interactions.