Synchronized Ion Acceleration by Ultraintense Slow Light

Abstract: An effective scheme of synchronized laser-triggered ion acceleration and the corresponding theoretical model are proposed for a slow light pulse of relativistic intensity, which penetrates into a near-critical-density plasma, strongly slows, and then increases its group velocity during propagation within a target. The 3D PIC simulations confirm this concept for proton acceleration by a femtosecond petawatt-class laser pulse experiencing relativistic self-focusing, quantify the characteristics of the generated … Show more

“…5). This is similar to what was demonstrated for hypothetical CH 2 targets [13]. We also studied the role of a more deeply distributed hydrogen contamination (gray dashed curve in Fig.…”

“…Nanostructured targets are also discussed as a way of increasing the efficiency of lasertarget coupling and proton acceleration [16,17]. In this paper, we extend recently published results of SASL simulations [13] with hypothetical low-density targets to targets that are available in practice. In Sec.…”

“…A principally new concept for using low-density targets for proton acceleration was recently proposed based on the synchronized propagation of the laser pulse and proton bunch [13]. The key points of this acceleration mechanism are to stop the laser pulse at the front of the target and then accelerate the infiltrating intense part of the pulse inside the plasma at the same rate as the proton energy increase in the ponderomotive potential to achieve synchronized acceleration by slow light (SASL).…”

“…The 3D particle-in-cell (PIC) simulations in support of the SASL mechanism were performed with the example of a low-density CH 2 target [13]. Such a material does not yet exist, and a suitable hydrogenated material is highly desirable as a substitute from the experimental standpoint.…”

Laser-triggered proton acceleration from hydrogenated low-density targets

“…5). This is similar to what was demonstrated for hypothetical CH 2 targets [13]. We also studied the role of a more deeply distributed hydrogen contamination (gray dashed curve in Fig.…”

“…Nanostructured targets are also discussed as a way of increasing the efficiency of lasertarget coupling and proton acceleration [16,17]. In this paper, we extend recently published results of SASL simulations [13] with hypothetical low-density targets to targets that are available in practice. In Sec.…”

“…A principally new concept for using low-density targets for proton acceleration was recently proposed based on the synchronized propagation of the laser pulse and proton bunch [13]. The key points of this acceleration mechanism are to stop the laser pulse at the front of the target and then accelerate the infiltrating intense part of the pulse inside the plasma at the same rate as the proton energy increase in the ponderomotive potential to achieve synchronized acceleration by slow light (SASL).…”

“…The 3D particle-in-cell (PIC) simulations in support of the SASL mechanism were performed with the example of a low-density CH 2 target [13]. Such a material does not yet exist, and a suitable hydrogenated material is highly desirable as a substitute from the experimental standpoint.…”

Laser-triggered proton acceleration from hydrogenated low-density targets

“…Relativistic laser interaction with NCPs is characterized by a rich physics and has been investigated for a wide variety of applications: laser-driven particle sources (electrons [9], positrons [10] and especially ions [11,12,13,14,15,16,17,18,19]),laboratory astrophysics (the proposed schemes to observe collision-less shock acceleration of ions rely on slightly overcritical plasmas [20,21]), advanced strategies for Inertial Confinement Fusion [22,23] and ultra-intense, ultra-short gamma sources [24,25,26,27,28]. Some recent results include enhanced high-order harmonic emission in NCPs [29] .…”

Parametric investigation of laser interaction with uniform and nanostructured near-critical plasmas

Summary of working group 2: Ion beams from plasmas