But looks like it don't work well.
Did you check using pencil and paper or how do you know ?
How to code following equation?
5 vues (au cours des 30 derniers jours)
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My code for the above equation is given below.
But looks like it don't work well. Could anyone have a look at whether I implemented the above formula well?
clear all;clc;close all;
syms j l k p q s K
m = 3;
z=linspace(0.0001,5000);
w0=0.05;
Omega = 30;
k_w = 4.05*10^6;
gama=(1./(w0.^2))+((1i.*k_w)./(2.*z));
gama_star = subs(gama, 1i, -1i);
con = 1./(16.*pi.*pi.*z.*z);
total = 0;
for j = 0:m
J = nchoosek(m,j).*((1i).^(m-j));
sum = 0;
for l = 0:m
L = nchoosek(m,l).*((1i).^(m-l));
for k = 0:1/2:l/2
KK = (((-1).^k).*factorial(l))./(gamma(k+1).*factorial(l-(2.*k)));
for q= 0:(l-2*k)
Q = nchoosek((l-(2.*k)),q);
for p= 0:1/2:(m-l)/2
P = (((2.*1i)./(sqrt(gama))).^(m-(2.*p)-(2.*k)));
for s = 0:(m-l-2*p)
a = (hermiteH(m-j+s,((Omega.*1i)./sqrt(gama)))).*(hermiteH(j+q,((Omega.*1i)./sqrt(gama))));
b = (exp(Omega).*((Omega).^(m-s-q-(2.*p)-(2.*k)))) - (exp(-Omega).*((-Omega).^(m-s-q-(2.*p)-(2.*k))));
S = nchoosek((m-l-(2.*p)),s).*a.*b.*(1./((2.*1i.*sqrt(gama_star)).^(m+s+q)));
end
end
end
end
end
sum = sum + S.*P.*Q.*KK.*L;
end
total = sum.*con;
F = vpa(real(total))
4 commentaires
Réponses (1)
Image Analyst
le 11 Sep 2022
Many times with complicated equations it's difficult to code and often it's because the parentheses were misplaced. I recommend you break it up into smaller terms, like term1, term2, term3, sum1, sum2, sum3, etc., and then combine them.
5 commentaires
Image Analyst
le 11 Sep 2022
That's because you have not defined z:
Unrecognized function or variable 'z'.
Error in test8 (line 2)
c=1./(16.*pi.^2.*z.^2)
Torsten
le 11 Sep 2022
m = 3;
z=linspace(0.0001,5000);
w0=0.05;
Omega = 30;
k_w = 4.05*10^6;
Gamma=(1./(w0.^2))+((1i.*k_w)./(2.*z));
Gamma_star = (1./(w0.^2))+((-1i.*k_w)./(2.*z));
F = 0;
c=1./(16.*pi.^2.*z.^2);
for l = 0:m
L = ((1i).^(m-l)).*nchoosek(m,l);
sum_j = 0;
for j = 0:m
J= ((1i).^(m-j)).*nchoosek(m,j);
sum1 = 0.0;
for k = 0:1/2:l/2
faktor1_K = (((-1).^k).*factorial(l))./(gamma(k+1).*factorial(l-(2.*k)));
for q = 0:l-2*k
faktor1_Q = nchoosek((l-(2.*k)),q);
for p = 0:1/2:(m-l)/2
faktor1_P = (((2.*1i)./(sqrt(Gamma))).^(m-(2.*p)-(2.*k)));
sum_inner = 0;
for s = 0:m-l-2*p
E1 = ((exp(Omega).*(Omega.^(m-s-q-2.*p-2.*k))) - (exp(-Omega).*(-Omega.^(m-s-q-2.*p-2.*k)))).*hermiteH(j+q,((1i.*Omega)./(sqrt(Gamma)))).*hermiteH(m-j+s,((1i.*Omega)./(sqrt(Gamma))));
sum_inner = sum_inner + nchoosek((m-l-(2.*p)),s).*(1./(((2.*1i.*sqrt(Gamma_star))).^(m+q+s))).*E1;
end
end
end
sum1 = sum1 + faktor1_K.*faktor1_P.*faktor1_Q.*sum_inner;
end
sum_j= sum_j + J.*(sum1);
end
F = F + (L.*sum_j);
end
F0 = c.*F
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