********************************************************************** As shown above, the output Files are (1) A1.html (2) A2.html (3) A3.html (4) A4.html (5) AA.txt Summary of AA.txt is given by C2020_06_04_Summary and is shown also as below: ********************************************************************** X=2.977000 D =10000000.000000 V= 0.000000 dV/dX = 0.000001 X=2.990000 D =10000000.000000 V= 0.000022 dV/dX = 0.011707 X=2.999000 D =10000000.000000 V= 0.017760 dV/dX = 8.981280 X=3.000000 D =10000.000000 V= 0.034400 dV/dX = 16.639738 X=3.001000 D =10000.000000 V= 0.046966 dV/dX = 12.566263 X=3.205000 D =10000.000000 V= 0.178505 dV/dX = 0.010111 X=3.579000 D =10000.000000 V= 0.178911 dV/dX = 0.000001 ********************************************************************** (006) Na= 10000.000000 Debye Length = sqrt ( Esi*kT/Na) = 0.040967 X=3.205000 D =10000.000000 V= 0.178505 dV/dX = 0.010111 XP = 0.205 ; XP/sqrt ( Esi*kT/Na) = 5.004 ; (004) Ns= 10000000.000000 Debye Length = sqrt ( Esi*kT/Ns) = 0.001295 X=2.990000 D =10000000.000000 V= 0.000022 dV/dX = 0.011707 XPP = 0.01 ; XPP/sqrt ( Esi*kT/Ns) = 7.722 ; (003) Nd= 100.000000 Debye Length = sqrt ( Esi*kT/Nd) =0.409673 ******************************************************************* (001) kT = 0.025900 (002) Esi = 648.000000 (003) Nd= 100.000000 Debye Length = sqrt ( Esi*kT/Nd) =0.409673 (004) Ns= 10000000.000000 Debye Length = sqrt ( Esi*kT/Ns) = 0.001295 (005) Rs= 0.000000 (006) Na= 10000.000000 Debye Length = sqrt ( Esi*kT/Na) = 0.040967 (007) Ra= 0.000000 (008) Barrier Potential by doping level difference VB= kT ln ( Ns/Na ) = 0.178911 (008a) Vo = kT*(1 - VB/(Ns/Na - 1 ) )= 0.025895 (009) The range of X for computation Xm= 10.000000 (010) XX6=Xm= 10.000000 (011) The actual width of the P+PNPP+ junction XX12= 2* Xm = 20.000000 (012) N= 10000 (013) DX = Xm/N1 = 0.001000 (014) N2 = N/2= 5000 (015) NN= 100 Impurity Doping Profile D(X) and the initial values of the potential V(X) are computed here. VB= kT*log(Ns/Na) = 0.178911 XX4 = XX5 - ( Xm - XX5)*Nd/Na = 6.970000 V5 = VB + Na*( XX5 - XX4 )*( XX5- XX4 )/2/Esi = 0.185855 VMM = V5 + Nd*(Xm -XX5)*(Xm-XX5)/2/Esi = 0.880300 (016) X5 = 7.000000 D(X5) = -100.000000 (017) X5 - DX = 6.999000 D(X5-DX) = 10000.000000 (018) The PN junction edge XX5 = 7.000000 (019) The PN junction edge XX7 = 2*Xm - XX5 = 13.000000 (020) The width of the N region WW1 = XX7 - XX5 = 2* ( Xm - XX5) = 6.000000 (021) In N region [ XX5 , Xm ] = [ 7.000000 , 10.000000 ] the tolal charge QDD = Nd*(Xm -XX5) = 300.000000 the tolal charge QD = 300.000000 NDD = QD/(Xm-XX5) = 100.000000 with Nd = 100.000000 (022) In N region [ XX5 , Xm ] = [ 7.000000 , 10.000000 ] NDD = QDD/( Xm - XX5 )= 100.000000 with Nd = 100.000000 (023) XX4 = XX5 - (Xm-XX5)*Nd/Na) = 6.970000 at X = XX4-DX = 6.969000 Dope(X) = 10000.000000 at X = XX4 = 6.970000 Dope(XX4) = D4= 10000.000000 The left PN junction depletion edge is at X = XX8 ; XX8 = 2*Xm-X4 = 13.030000 (024) The right PN junction depletion edge is at X = X4 : X4 = 6.969990 ( XX5 - X4 ) = 0.030010 with XX4 = 6.970000 NAA = QAA/(XX5-X4)= 10000.000000 with Na = 10000.000000 (025) at X = X4 = 6.970000 D(X4) = D4 = 10000.000000 with XX4 = 6.970000 (026) at X = XX4-DX = 6.969000 Dope(X) = 10000.000000 (026) at X = XX4 = 6.970000 Dope(XX4) = D4= 10000.000000 (027) at X = X4-DX = 6.968990 Dope(X) = 10000.000000 (027) at X = X4 = 6.969990 Dope(XX4) = D4= 10000.000000 (028) Surface Impurity Density Doo =10000000.000000 at X = XX4 =6.970000 Dope(XX4) = D4 = 10000.000000 with Na = 10000.000000 (029) V4 = kT*log( Doo/D4 ) = 0.178911 with VB = 0.178911 V5 = VB + Na*(XX5-XX4)*(XX5-XX4)/2/Esi = 0.185855 (030) The average doping level of the depletion region in the P region NAA= QDD/ ( XX5 - XX4 ) = 10000.000000 with Na =10000.000000 (032) VMM = V5 + NDD* ( Xm - XX5 )* ( Xm - XX5 )/2/Esi ; Empty Well Potential = VMM = 0.880300 ************************************************************************