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+//////////////////////////////////////////////////////////////////////////////////////////
+//
+// input for lpic
+//
+//////////////////////////////////////////////////////////////////////////////////////////
+
+
+&pulse_front
+------------------------------------------------------------------------------------------
+Q = 1 # switch ON (Q=1) OFF (Q=0)
+angle = 45 # in degree
+pulse_save = 1 # save pulse shape? yes=1, no=0
+pulse_save_step = 0.0001 # time step in periods
+
+
+&pulse_front_part_0
+------------------------------------------------------------------------------------------
+amplitude = 0 # dimensionless laser field amplitude
+polarization = 2 # s=1, p=2, c=3
+shape = 3 # linear=1, sin=2, sin^2=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in periods
+delay = 0 # propagation delay in cycles
+phase = 0 # propagation delay in cycles
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 1 # frequency in fundamental frequencies
+
+
+&pulse_front_part_1
+------------------------------------------------------------------------------------------
+amplitude = 5 # dimensionless laser field amplitude, 2nd harmonic
+polarization = 2 # s=1, p=2, c=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # 2nd harmonic's phase with respect to fundamental [degree]
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 2 # frequency in fundamental frequencies
+delay = 0 # delay of 2nd harmonic envelope with respect to main envelope
+
+
+&pulse_front_part_2
+------------------------------------------------------------------------------------------
+amplitude = 0.0 # dimensionless laser field amplitude, 3rd harmonic
+polarization = 2 # s=1, p=2, c=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # 3rd harmonic's phase [degree]
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 3 # frequency in fundamental frequencies
+delay = 0 # delay of 3rd harmonic envelope with respect to main envelope
+
+
+&pulse_front_part_3
+------------------------------------------------------------------------------------------
+amplitude = 0.1 # dimensionless laser field amplitude, nth harmonic
+polarization = 1 # s=1, p=2, c=3
+raise = 0.31954069 # pulse raise/fall time in periods
+duration = 0.63908137 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # nth harmonic's phase [degree]
+chirp = -4445.9584 # linear chirp (dw/dt) in 2 pi T^-2
+delay = 15 # delay of nth harmonic envelope with respect to main envelope
+frequency = 64.516129 # frequency of nth harmonic in fundamental frequencies
+
+
+&pulse_rear
+------------------------------------------------------------------------------------------
+Q = 0 # switch ON (Q=1) OFF (Q=0)
+
+angle = 0 # in degree
+pulse_save = 1 # save pulse shape? yes=1, no=0
+pulse_save_step = 0.02 # time step in periods
+
+
+&pulse_rear_part_0
+------------------------------------------------------------------------------------------
+amplitude = 0.0 # dimensionless laser field amplitude
+polarization = 1 # s=1, p=2, c=3
+shape = 3 # linear=1, sin=2, sin^2=3
+raise = 10 # pulse raise/fall time in periods
+duration = 20 # pulse duration in periods
+delay = 0 # propagation delay in cycles
+phase = 0 # propagation delay in cycles
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 1 # frequency in fundamental frequencies
+
+
+&pulse_rear_part_1
+------------------------------------------------------------------------------------------
+amplitude = 0.0 # dimensionless laser field amplitude, 2nd harmonic
+polarization = 2 # s=1, p=2, c=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # 2nd harmonic's phase with respect to fundamental
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 2 # frequency in fundamental frequencies
+delay = 0 # delay of 2nd harmonic envelope with respect to main envelope
+
+
+&pulse_rear_part_2
+------------------------------------------------------------------------------------------
+amplitude = 0.0 # dimensionless laser field amplitude, 3rd harmonic
+polarization = 2 # s=1, p=2, c=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # 3rd harmonic's phase
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+frequency = 3 # frequency in fundamental frequencies
+delay = 0 # delay of 3rd harmonic envelope with respect to main envelope
+
+
+&pulse_rear_part_3
+------------------------------------------------------------------------------------------
+amplitude = 0.0 # dimensionless laser field amplitude, nth harmonic
+polarization = 2 # s=1, p=2, c=3
+raise = 15 # pulse raise/fall time in periods
+duration = 30 # pulse duration in fundamental periods
+shape = 3 # linear=1, sin=2, sin^2=3
+phase = 0 # nth harmonic's phase [degree]
+chirp = 0 # linear chirp (dw/dt) in 2 pi T^-2
+delay = 0 # delay of nth harmonic envelope with respect to main envelope
+frequency = 14.0 # frequency of nth harmonic in fundamental frequencies
+
+
+&propagate
+------------------------------------------------------------------------------------------
+prop_start = 0 # start time in periods
+prop_stop = 40 # stop time in periods
+
+
+&box
+------------------------------------------------------------------------------------------
+cells_per_wl = 1000 # cells per wavelength, lab frame
+cells = 16200 # total number of cells
+cells_left = 3500 # cells vacuum left
+cells_plasma = 12500 # occupied cells for cells_ramp=0
+cells_rampgluepos = 250 # glue-point between the two exp-functions (form=2) ... length of the righter exp-ramp
+n_ion_over_nc = 196 # maximum density/critical density
+ux0 = 0.0 # initial momentum in x-direction
+box_save = 1 # save configuration? yes=1, no=0
+
+
+&lramp
+------------------------------------------------------------------------------------------
+length = 0 # linear ramp length (form=0) or righter scale length (form=1 or 2)
+form = 1 # 0 = linear; 1 = exponential; 2=doubleexponential
+cutoff = -50 # max ramplength (<0 <=> disabled)
+gluepos = 250 # glue-point between the two exp-functions (form=2) ... length of the righter exp-ramp
+middens = 0.5 # density of the constant portion in the middle (form=3) in fractions of ni
+length2 = 0 # lefter scale length (form=2)
+
+
+&rramp
+------------------------------------------------------------------------------------------
+length = 0 # cells in the linear ramp region (form=0) or scalelength
+form = 0 # 0 = linear; 1 = exponential
+length2 = 100 # righter scale length (form=2)
+cutoff = -1 # max ramplength (<0 <=> disabled)
+gluepos = 250 # glue-point between the two exp-functions (form=2) ... length of the lefter exp-ramp
+middens = 0.5 # density of the constant portion in the middle (form=3) in fractions of ni
+
+
+&electrons
+------------------------------------------------------------------------------------------
+fix = 0 # 0->not fixed 1->fixed
+ppc = 200 # max. number of MacroParticles per cell
+vtherm = 0.000 # thermal velocity in units of C
+
+
+&ions
+------------------------------------------------------------------------------------------
+fix = 1 # 0->not fixed 1->fixed
+z = 1 # q/e
+m = 50000 # m/m_e
+ppc = 200 # max. number of MacroParticles per cell
+vtherm = 0.00 # thermal velocity in units of C
+
+
+&output
+------------------------------------------------------------------------------------------
+path = ../data_Thomsonstreaking_1_1 # output path
+
+&energy
+ Q = 1 # energy plot?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&flux
+ Q = 1 # flux plot?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&reflex
+ Q = 1 # reflectivity plot?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&snapshot
+ Q = 1 # snapshots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&el_phasespace
+ Q = 0 # phasespace plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 0.05 # time step in periods
+
+&ion_phasespace
+ Q = 0 # phasespace plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 0.05 # time step in periods
+
+&el_velocity
+ Q = 1 # electron velocity distributions?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&ion_velocity
+ Q = 1 # ion velocity distributions?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ t_step = 1 # time step in periods
+
+&de
+ Q = 1 # electron density plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&di
+ Q = 1 # ion density plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&jx
+ Q = 0 # jx plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&jy
+ Q = 0 # jy plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&jz
+ Q = 0 # jz plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&ex
+ Q = 0 # ex plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&ey
+ Q = 1 # ey plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&ez
+ Q = 1 # ez plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&bx
+ Q = 0 # bx plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&by
+ Q = 1 # by plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&bz
+ Q = 1 # bz plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&etx
+------------------------------------------------------------------------------------------
+ Q = 0 # thermal x-energy plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+
+&ety
+------------------------------------------------------------------------------------------
+ Q = 0 # thermal y-energy plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+
+&etz
+------------------------------------------------------------------------------------------
+ Q = 0 # thermal z-energy plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+
+&edens
+ Q = 1 # field energy density plots?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ x_start = 0 # left boundary in cells
+ x_stop = 100000 # right boundary in cells
+
+&traces
+ Q = 1 # traces?
+ t_start = 0 # start time in periods
+ t_stop = 60 # stop time in periods
+ traces = 22 # of traces at fixed positions x:
+ t0 =2, t1=3400, t2=3410,t3=3420, t4=3430, t5=3440, t6=3450, t7=3460; t8=3470, t9=3480, t10=3490, t11=3500, t12=3510, t13=3520, t14=3530, t15=3540, t16=3550, t17=3560, t18=3570, t19=3580, t20=3590, t21=3600
+
+
+//////////////////////////////////////////////////////////////////////////////////////////
+
+
+&restart
+------------------------------------------------------------------------------------------
+Q = 0 # restart from intermediate stage?
+file = restart # start file
+Q_save = 1 # save intermediate stages periodically?
+file_save = restart # save file
+
+
+&parallel
+------------------------------------------------------------------------------------------
+N_domains = 1 # number of parallel processes
+Q_reo = 1 # periodic reorganizations?
+delta_reo = 1 # laser cycles between reo's
+
+
+//////////////////////////////////////////////////////////////////////////////////////////
+
+
+#thermal velocity v/c vs. thermal energy [eV] M ( vx^2 + vy^2 + vz^2 ) = 3 k T
+#------------------------------------------------------------------------------------------
+#1e-4 0.005
+#3e-4 0.046
+#5e-4 0.128
+#1e-3 0.511
+#4e-3 8.2
+#1e-2 51
+#2e-2 204
+#3e-2 460
+#4e-2 818
+#4.42e-2 1000
+#1e-1 5110
+#
+#choose: v_th/c = (lambda_d/dx) * (omega_p/omega) * (2pi dx/lambda)
+# :=1 = sqrt(z_ion * n_ion_over_nc) = 2pi/cells_per_wl
+
+//////////////////////////////////////////////////////////////////////////////////////////
+
+#source p-pol refl. 1 minp-pol refl. 1 maxp-pol refl. 1 p-pol transm. 1 minp-pol transm. 1 maxp-pol transm. 1
+#source p-pol refl. 1 minp-pol refl. 1 maxp-pol refl. 1
+#source p-pol refl. 1 minp-pol refl. 1 maxp-pol refl. 1
+#source p-pol refl. 1