Abstract
Laser-triggered ionization injection is a promising way of generating controllable high-quality electrons in plasma-based acceleration. We show that ionization injection of electrons into a fully nonlinear plasma wave wake using a laser pulse comprising of one or more Laguerre-Gaussian modes with combinations of spin and orbital angular momentum can generate exotic three-dimensional spatial distributions of high-quality relativistic electrons. The phase dependent residual momenta and initial positions of the ionized electrons are encoded into their final phase space distributions, leading to complex spatiotemporal structures. The structures are formed as a result of the transverse (betatron) and longitudinal (phase slippage and energy gain) dynamics of the electrons in the wake immediately after the electrons are injected. Theoretical analysis and three-dimensional simulations verify this mapping process leads to the generation of these complex topological beams. These beams may trigger novel beam-plasma interactions as well as produce coherent radiation with orbital angular momentum when sent through a resonant undulator.
Highlights
Plasma-based acceleration (PBA) [1,2] is attractive because it can provide acceleration gradients in excess of GV=cm
The production of high-quality electron beams [13,14,15,16,17] from controllable injection schemes [18,19,20,21,22,23,24,25,26,27] has been instrumental for these advances
Recent work on plasma cathodes has opened the possibility of generating femtosecond duration electron beams with peak currents as high as hundreds of kA [28,29] and normalized emittance εn as low as 10’s of nm [13,14,16,17,30,31,32]
Summary
Plasma-based acceleration (PBA) [1,2] is attractive because it can provide acceleration gradients in excess of GV=cm. Current laser plasma– based schemes produce electron beams with spiral structures by transferring a large amount of angular momentum to them through the twisted wakefield [44] or the twisted
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