J. Schreiber, F. Bell, and Z. Najmudin. Optimization of relativistic laser–ion acceleration[J]. High Power Laser Science and Engineering, 2014, 2(4): 04000e41
- High Power Laser Science and Engineering
- Vol. 2, Issue 4, 04000e41 (2014)
![(a) Experimental data from Schreiber et al.[57] and the prediction of the nonrelativistic TNSA model. (b) Optimal pulse duration for the specific example of , , for the nonrelativistic consideration (Equation (12), dashed) and the relativistic consideration (Equation (29), solid). The ultra-relativistic limit is given by the dash-dotted line. For larger the curves are globally shifted to respective larger optimal pulse durations.](/richHtml/hpl/2014/2/4/04000e41/img_1.gif)
Fig. 1. (a) Experimental data from Schreiber et al. [57] and the prediction of the nonrelativistic TNSA model. (b) Optimal pulse duration for the specific example of 
, 
, 
for the nonrelativistic consideration (Equation (12 ), dashed) and the relativistic consideration (Equation (29 ), solid). The ultra-relativistic limit is given by the dash-dotted line. For larger 
the curves are globally shifted to respective larger optimal pulse durations.
, , for the nonrelativistic consideration (Equation ( the curves are globally shifted to respective larger optimal pulse durations. ![Maximum proton and carbon ion energies for varying thicknesses of nm-thin DLC foils reported in Henig et al.[51]. The solid curve represents the prediction for RPA, Equation (41), using the parameters , , , , . The optimum mass/thickness is indicated by the transition of the solid to a dashed curve.](/richHtml/hpl/2014/2/4/04000e41/img_2.gif)
Fig. 2. Maximum proton and carbon ion energies for varying thicknesses of nm-thin DLC foils reported in Henig et al. [51]. The solid curve represents the prediction for RPA, Equation (41 ), using the parameters 
, 
, 
, 
, 
. The optimum mass/thickness is indicated by the transition of the solid to a dashed curve.
, , , , . The optimum mass/thickness is indicated by the transition of the solid to a dashed curve. ![Optimum ion energies predicted by the models for TNSA, Equations (29)–(32) (black), and RPA, Equations (41)–(43) (red). The parameters are , , (solid) and (dashed). Some selected experimental results are represented by blue squares (Bin et al.[112], Henig et al.[51], Mackinnon et al.[108], Zeil et al.[113], Ogura et al.[68], Jong Kim et al.[114], Green et al.[115], Jung et al.[116]) and theoretical results obtained from PIC simulations are marked by green circles (Pukhov[71], Wang et al.[117], Qiao et al.[40], Sgattoni et al.[118], Yan et al.[75], Esirkepov et al.[35]). For details, see text.](/Images/icon/loading.gif){kind=icon}
Fig. 3. Optimum ion energies predicted by the models for TNSA, Equations (29 )–(32 ) (black), and RPA, Equations (41 )–(43 ) (red). The parameters are 
, 
, 
(solid) and 
(dashed). Some selected experimental results are represented by blue squares (Bin et al. [112], Henig et al. [51], Mackinnon et al. [108], Zeil et al. [113], Ogura et al. [68], Jong Kim et al. [114], Green et al. [115], Jung et al. [116]) and theoretical results obtained from PIC simulations are marked by green circles (Pukhov[71], Wang et al. [117], Qiao et al. [40], Sgattoni et al. [118], Yan et al. [75], Esirkepov et al. [35]). For details, see text.
, , (solid) and (dashed). Some selected experimental results are represented by blue squares (Bin 
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