Prompt acceleration of the μ+ beam in a donut wakefield driven by a shaped Laguerre-Gaussian laser pulse

Abstract

The recent experimental data of anomalous magnetic moments strongly indicate the existence of new physics beyond the standard model. An energetic μ+ beam is a potential option to the expected neutrino factories, the future muon colliders and the μSR(the spin rotation, resonance and relaxation) technology. It is proposed a prompt acceleration scheme of the μ+ beam in a donut wakefield driven by a shaped Laguerre-Gaussian (LG) laser pulse. The forward part of the donut wakefield can accelerate and also focus positive particle beams effectively. The LG laser is shaped by a near-critical-density plasma. The shaped LG laser has the shorter rise time and can enlarge the acceleration field. The acceleration field driven by a shaped LG laser pulse is six times higher than that driven by a normal LG laser pulse. The simulation results show that the μ+ bunch can be accelerated from 200MeV to 2GeV and the transversal size of the μ+ bunch is also focused from initial ω0=5μ m to ω=1μ m within several picoseconds.