# Li -> Li , Maxwellian incident distribution , sheath potential 0 kT # z1= 3 , m1= 6.94 , z2= 3, m2= 6.94 , Es=1.67 , rho= 0.53 g/cm**3 # kk0=kk0r=2, kdee1=kdee2=3, ipot=ipotr=1 (KrC), esb=1.67 eV, ef=1.62 eV # program: testvmcx, newtrim(Laszlo) # ne=14 # # kT Y Y_E E_sp R_N R_E E_b range # 1.1 4.56e-4 3.04e-4 1.47e+0 1.10e-3 1.12e-3 2.24e+0 1.12e+0 1.4 1.24e-3 7.64e-4 1.73e+0 2.85e-3 2.74e-3 2.69e+0 1.36e+0 2 4.22e-3 2.37e-3 2.24e+0 9.29e-3 8.13e-3 3.50e+0 1.82e+0 3 1.41e-2 6.30e-3 2.68e+0 2.40e-2 1.80e-2 4.49e+0 2.51e+0 5 4.28e-2 1.44e-2 3.36e+0 5.70e-2 3.80e-2 6.67e+0 3.94e+0 10 1.26e-1 2.84e-2 4.53e+0 1.09e-1 6.07e-2 1.12e+1 6.83e+0 20 2.58e-1 3.90e-2 6.04e+0 1.43e-1 7.01e-2 1.96e+1 1.18e+1 50 4.88e-1 4.31e-2 8.87e+0 1.48e-1 6.39e-2 4.32e+1 2.43e+1 100 6.66e-1 4.10e-2 1.23e+1 1.34e-1 5.37e-2 8.01e+1 4.22e+1 200 7.95e-1 3.49e-2 1.74e+1 1.19e-1 4.60e-2 1.53e+2 7.64e+1 500 8.58e-1 2.39e-2 2.78e+1 9.74e-2 3.58e-2 3.66e+2 1.80e+2 1000 7.95e-1 1.62e-2 4.08e+1 7.90e-2 2.92e-2 7.39e+2 3.52e+2 2000 7.35e-1 1.12e-2 6.09e+1 7.05e-2 2.35e-2 1.33e+3 6.96e+2 5000 5.12e-2 1.82e-2 3.57e+3 1.69e+3