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path: root/latest_inputversion.lpi
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//////////////////////////////////////////////////////////////////////////////////////////
//
//  input for lpic
//
//////////////////////////////////////////////////////////////////////////////////////////


&pulse_front
------------------------------------------------------------------------------------------
Q                = 1         # switch ON (Q=1) OFF (Q=0)
amplitude        = 0       # dimensionless laser field amplitude
amplitude2       = 5         # dimensionless laser field amplitude, 2nd harmonic
amplitude3       = 0.0       # dimensionless laser field amplitude, 3rd harmonic
amplituden       = 0.0       # dimensionless laser field amplitude, nth harmonic
phase2           = 0         # 2nd harmonic's phase with respect to fundamental [degree]
phase3           = 0         # 3rd harmonic's phase [degree]
phasen           = 0         # nth harmonic's phase [degree]
delay2             = 0         # delay of 2nd harmonic envelope with respect to main envelope
delay3             = 0         # delay of 3rd harmonic envelope with respect to main envelope
delayn           = 0         # delay of nth harmonic envelope with respect to main envelope
seedfrequency    = 14.0      # frequency of nth harmonic in fundamental frequencies

angle            = 45        # in degree
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
pulse_save       = 1         # save pulse shape? yes=1, no=0
pulse_save_step  = 0.001     # time step in periods


&pulse_rear
------------------------------------------------------------------------------------------
Q                = 0         # switch ON (Q=1) OFF (Q=0)
amplitude        = 0.0       # dimensionless laser field amplitude
amplitude2       = 0.0       # dimensionless laser field amplitude, 2nd harmonic
amplitude3       = 0.0       # dimensionless laser field amplitude, 3rd harmonic
amplituden       = 0.0       # dimensionless laser field amplitude, nth harmonic
phase2           = 0         # 2nd harmonic's phase with respect to fundamental
phase3           = 0         # 3rd harmonic's phase
phasen           = 0         # nth harmonic's phase [degree]
delay2             = 0         # delay of 2nd harmonic envelope with respect to main envelope
delay3             = 0         # delay of 3rd harmonic envelope with respect to main envelope
delayn           = 0         # delay of nth harmonic envelope with respect to main envelope
seedfrequency    = 14.0      # frequency of nth harmonic in fundamental frequencies

angle            = 0         # in degree
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
pulse_save       = 1         # save pulse shape? yes=1, no=0
pulse_save_step  = 0.02      # time step in periods


&propagate
------------------------------------------------------------------------------------------
prop_start       = 0         # start time in periods
prop_stop        = 60        # stop time in periods 


&box
------------------------------------------------------------------------------------------
cells_per_wl       = 1000      # cells per wavelength, lab frame
cells              = 18000      # 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
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
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


&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_fix1_2          # 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             = 0         # 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             = 0         # 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             = 0         # 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             = 0         # 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

&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