سلام. میخواهم در برنامه زیر جریان Ids را برحسب DS را رسم کنم
چه دستوری باید بنویسم؟ ایا اشکالی در طرز نوشتن برنامه هست؟؟
چه دستوری باید بنویسم؟ ایا اشکالی در طرز نوشتن برنامه هست؟؟
کد پیاچپی:
Ccsd=0; CoupleRatio=0; m_cnt=1; Efo=0.6; Wg=0; Cb=40e-12; Lg=32e-9; Lgef=100e-9; Vfn=0; Vfp=0; m=19; n=0; Hox=4e-9; Kox=16; TEMP=27;
Lch=Lg; Lgeff=Lgef; Lss=32e-9; Ldd=32e-9; Kgate=Kox; Tox=Hox; Csub=Cb; Vfbn=Vfn; Dout=0; Sout=0; Pitch=20e-9; n1=m; n2=n; tubes=3; q=1.60e-19;
Vpi=3.033; a=0.2495e-9; pi=3.1416; h=6.63e-14; h_ba=1.0552e-14; k=8.617e-5; epso=8.85e-12; Coeff1_Cgsd=0e-12; Coeff2_Cgsd=0e-18; Rsub=1; Klowk=2; Cgabove=27e-12;
Ld_par=15e-9; Rcnt=3.3e3; FacR=0.4; Ef0=0.66; lambda_op=15e-9; de_fac=4; Leff=15e-9; Lceff=200e-9; phi_M=4.5; phi_S=4.5; sub_pitch=6.4e-9;
lambda_ap=500e-9; photon=0.16; L_channel=32e-9; L_sd=16e-9; L_relax=40e-9; Cgsub=30e-12; Ksub=4; Cc_cnt=26e-12;
Ccabove=15e-12; Cc_gate=78e-12;
dia=a*sqrt(power(n1,2)+n1*n2+power(n2,2))/pi;
rad=(dia/2);
Hei=(Tox+rad);
Ctot=(Cgsub+Cgabove+Cc_gate+Cc_gate);
Coeff_Cc=(pi*Klowk*epso);
kT=(k*(TEMP+273));
Efi=Efo; CNTPos=1; Lgate=Lg;
%The first perpendicular wave number
K1=2*pi/(3*a*sqrt(power(n1,2)+n1*n2+power(n2,2)));
%The 2nd perpendicular wave number
K2=2*K1;
%The parallel wave number
Kp1=2*pi/Lgate;
Kp2=2*Kp1;
Kp3=3*Kp1;
Kp4=4*Kp1;
Kp5=5*Kp1;
Kp6=6*Kp1;
Kp7=7*Kp1;
Kp8=8*Kp1;
Kp9=9*Kp1;
%The energy of the perpendicular component of the mth sub-band, above Ei
E1=Vpi*pi/sqrt(3*(power(n1,2)+n1*n2+power(n2,2)));
E2=(2*E1);
%The energy of the (m,n)th sub-band, above Ei
CoeffE=sqrt(3)/2*a*Vpi;
E11= CoeffE*sqrt(power(K1,2)+power(Kp1,2));
E12= CoeffE*sqrt(power(K1,2)+power(Kp2,2));
E13= CoeffE*sqrt(power(K1,2)+power(Kp3,2));
E14= CoeffE*sqrt(power(K1,2)+power(Kp4,2));
E15= CoeffE*sqrt(power(K1,2)+power(Kp5,2));
E16= CoeffE*sqrt(power(K1,2)+power(Kp6,2));
E17= CoeffE*sqrt(power(K1,2)+power(Kp7,2));
E18= CoeffE*sqrt(power(K1,2)+power(Kp8,2));
E19= CoeffE*sqrt(power(K1,2)+power(Kp9,2));
En11=E11-E1;
En12=E12-E1;
En13=E13-E1;
En14=E14-E1;
En15=E15-E1;
En16=E16-E1;
En17=E17-E1;
En18=E18-E1;
En19=E19-E1;
Coeff_J11 = Kp1/sqrt(power(K1,2)+power(Kp1,2));
Coeff_J12 = Kp2/sqrt(power(K1,2)+power(Kp2,2));
Coeff_J13 = Kp3/sqrt(power(K1,2)+power(Kp3,2));
Coeff_J14 = Kp4/sqrt(power(K1,2)+power(Kp4,2));
Coeff_J15 = Kp5/sqrt(power(K1,2)+power(Kp5,2));
Coeff_J16 = Kp6/sqrt(power(K1,2)+power(Kp6,2));
Coeff_J17 = Kp7/sqrt(power(K1,2)+power(Kp7,2));
Coeff_J18 = Kp8/sqrt(power(K1,2)+power(Kp8,2));
Coeff_J19 = Kp9/sqrt(power(K1,2)+power(Kp9,2));
FDOS11 = (E11)/sqrt(abs(power((E11),2)-power(E1,2)));
FDOS12 = (E12)/sqrt(abs(power((E12),2)-power(E1,2)));
FDOS13 = (E13)/sqrt(abs(power((E13),2)-power(E1,2)));
FDOS14 = (E14)/sqrt(abs(power((E14),2)-power(E1,2)));
FDOS15 = (E15)/sqrt(abs(power((E15),2)-power(E1,2)));
FDOS16 = (E16)/sqrt(abs(power((E16),2)-power(E1,2)));
FDOS17 = (E17)/sqrt(abs(power((E17),2)-power(E1,2)));
FDOS18 = (E18)/sqrt(abs(power((E18),2)-power(E1,2)));
FDOS19 = (E19)/sqrt(abs(power((E19),2)-power(E1,2)));
FDOS111 = (E11-photon)/sqrt(abs(power((E11-photon),2)-power(E1,2)));
FDOS122 = (E12-photon)/sqrt(abs(power((E12-photon),2)-power(E1,2)));
FDOS133 = (E13-photon)/sqrt(abs(power((E13-photon),2)-power(E1,2)));
FDOS144 = (E14-photon)/sqrt(abs(power((E14-photon),2)-power(E1,2)));
FDOS155 = (E15-photon)/sqrt(abs(power((E15-photon),2)-power(E1,2)));
FDOS166 = (E16-photon)/sqrt(abs(power((E16-photon),2)-power(E1,2)));
FDOS177 = (E17-photon)/sqrt(abs(power((E17-photon),2)-power(E1,2)));
FDOS188 = (E18-photon)/sqrt(abs(power((E18-photon),2)-power(E1,2)));
FDOS199 = (E19-photon)/sqrt(abs(power((E19-photon),2)-power(E1,2)));
delta_phib=0.824;
DS=0:0.1:0.9
%***********************************************************************************************************
fermi_s11 = 1./(1+exp((E11-delta_phib)./kT));
fermi_s12 = 1./(1+exp((E12-delta_phib)./kT));
fermi_s13 = 1./(1+exp((E13-delta_phib)./kT));
fermi_s14 = 1./(1+exp((E14-delta_phib)./kT));
fermi_s15 = 1./(1+exp((E15-delta_phib)./kT));
fermi_s16 = 1./(1+exp((E16-delta_phib)./kT));
fermi_s17 = 1./(1+exp((E17-delta_phib)./kT));
fermi_s18 = 1./(1+exp((E18-delta_phib)./kT));
fermi_s19 = 1./(1+exp((E19-delta_phib)./kT));
fermi_d11 = 1./(1+exp((E11-delta_phib+Vds)./kT));
fermi_d12 = 1./(1+exp((E12-delta_phib+Vds)./kT));
fermi_d13 = 1./(1+exp((E13-delta_phib+Vds)./kT));
fermi_d14 = 1./(1+exp((E14-delta_phib+Vds)./kT));
fermi_d15 = 1./(1+exp((E15-delta_phib+Vds)./kT));
fermi_d16 = 1./(1+exp((E16-delta_phib+Vds)./kT));
fermi_d17 = 1./(1+exp((E17-delta_phib+Vds)./kT));
fermi_d18 = 1./(1+exp((E18-delta_phib+Vds)./kT));
fermi_d19 = 1./(1+exp((E19-delta_phib+Vds)./kT));
%**************************************************************************************
%calculate current componet for channell with op&ap scatt
current_sub11 = ((fermi_s11) - (fermi_d11))*Coeff_J11;
current_sub12 = ((fermi_s12) - (fermi_d12))*Coeff_J12;
current_sub13 = ((fermi_s13) - (fermi_d13))*Coeff_J13;
current_sub14 = ((fermi_s14) - (fermi_d14))*Coeff_J14;
current_sub15 = ((fermi_s15) - (fermi_d15))*Coeff_J15;
current_sub16 = ((fermi_s16) - (fermi_d16))*Coeff_J16;
current_sub17 = ((fermi_s17) - (fermi_d17))*Coeff_J17;
current_sub18 = ((fermi_s18) - (fermi_d18))*Coeff_J18;
current_sub19 = ((fermi_s19) - (fermi_d19))*Coeff_J19;
current_sub_1 = current_sub11 +current_sub12 + current_sub13 + current_sub14 + current_sub15 + current_sub16+ current_sub17 +current_sub18 +current_sub19 ;
Coeffj=4*q*q/h/1e-20;
CocoJ=sqrt(3)*a*pi*Vpi;
JFET =Coeffj*CocoJ/Lgate*(current_sub_1);
Rs=7.04*1e3;
Ids=(JFET./(1+JFET*Rs))*0.6
Vds=DS-(Ids*10.78*1e3)
