Creation and direct laser acceleration of positrons in a single stage

Abstract: Relativistic positron beams are required for fundamental research in nonlinear strong field QED, plasma physics, and laboratory astrophysics. Positrons are difficult to create and manipulate due to their short lifetime, and their energy gain is limited by the accelerator size in conventional facilities. Alternative compact accelerator concepts in plasmas are becoming more and more mature for electrons, but positron generation and acceleration remains an outstanding challenge. Here we propose a new setup where … Show more

“…This property could be exploited to guide the products of Breit-Wheeler pair production from the collision of a high-intensity laser pulse with hard photons. Moreover, transverse confinement in a FF pulse could provide an alternative to injecting electron beams for mitigating alignment sensitivity in wakefield and direct laser acceleration of positrons [43,44].…”

Charged particle beam transport in a flying focus pulse with orbital angular momentum

“…This property could be exploited to guide the products of Breit-Wheeler pair production from the collision of a high-intensity laser pulse with hard photons. Moreover, transverse confinement in a FF pulse could provide an alternative to injecting electron beams for mitigating alignment sensitivity in wakefield and direct laser acceleration of positrons [43,44].…”

Charged particle beam transport in a flying focus pulse with orbital angular momentum