I couldn't understand why this program is not working, is my all variable algorithm is correct?

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clc
ti = 0;
tf = 10E-4;
tspan=[ti tf];
y0=[9;9;1;1;0].*10E-2;
I =0:0.1 :10 ;
Vf = zeros(length(I),1) ;
for i = 1:length(I)
[T,Y]= ode45(@(t,y) rate_eq(y,I(i)),tspan,y0);
Vf(i) = (2.*(((mean(Y(:,1).*Y(:,2).*cos(Y(:,5)))).^2 + (mean(Y(:,1).*Y(:,2).*sin(Y(:,5)))).^2).^0.5))/(mean(Y(:,1).^2)+mean(Y(:,2).^2));
end
disp(Vf)
NaN 0.3065 0.3449 0.3443 0.3617 0.3454 0.3619 0.3656 0.3589 0.3651 0.3622 0.3700 0.3750 0.3650 0.3792 0.3500 0.3687 0.3655 0.3635 0.3725 0.3723 0.3652 0.3573 0.3717 0.3687 0.3656 0.3690 0.3614 0.3664 0.3588 0.3699 0.3821 0.3566 0.3635 0.3592 0.3654 0.3608 0.3605 0.3619 0.3630 0.3488 0.3517 0.3569 0.3543 0.3494 0.3595 0.3527 0.3370 0.3590 0.3579 0.3559 0.3545 0.3431 0.3577 0.3573 0.3474 0.3441 0.3554 0.3269 0.3347 0.3372 0.3471 0.3389 0.3368 0.3298 0.3292 0.3219 0.3263 0.3443 0.3386 0.3260 0.3428 0.3151 0.3296 0.3156 0.3189 0.3200 0.3148 0.3134 0.3150 0.3299 0.3187 0.3071 0.3029 0.3232 0.3056 0.2895 0.2976 0.3067 0.2846 0.3003 0.2848 0.2940 0.2972 0.2976 0.3055 0.3036 0.2962 0.2932 0.2946 0.3023
function dy = rate_eq(y,I)
dy = zeros(5,1);
o = 2E5; %detuning frequency
tc = 30E-9; %photon cavity lifetime
tf = 230E-6; %fluorescence lifetime
a1 = 0.1; %roundtrip loass
a2 = 0.1;
P1 = 0.2; %pumpstrength
P2 = 0.2;
kc = 3E-3; %critical coupling strength
s = 0.17;
k = s.*kc;
%amplitude equation
dy(1) = ((y(3) - a1) * y(1) + k * y(2) * cos(y(5))) ./ tc;
dy(2) = ((y(4) - a2) * y(2) + k * y(1) * cos(y(5))) ./ tc;
%gain medium strength
dy(3) = (P1 - y(3) * (((abs(y(1)))^2 .*I) + 1)) / tf;
dy(4) = (P2 - y(4) * (((abs(y(2)))^2 .*I) + 1)) / tf;
%phase differential equation
dy(5) = o - (k / tc) * (((y(1) ./ y(2)) + (y(2) ./ y(1))) * sin(y(5)));
end
  3 Comments

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Accepted Answer

KSSV
KSSV on 12 Jul 2022
You need to interchange the variables to the function rate_eq. Try this:
ti = 0;
tf = 10E-4;
tspan=[ti tf];
y0=[9;9;1;1;0].*10E-2;
[T,Y]= ode45(@(t,y) rate_eq(t,y),tspan,y0);
I =0:0.1 :10 ;
Vf = zeros(length(I),1) ;
for i = 1:length(I)
[T,Y]= ode45(@(t,y) rate_eq(I(i),y),tspan,y0);
Vf(i) = (2.*(((mean(Y(:,1).*Y(:,2).*cos(Y(:,5)))).^2 + (mean(Y(:,1).*Y(:,2).*sin(Y(:,5)))).^2).^0.5))/(mean(Y(:,1).^2)+mean(Y(:,2).^2));
end
disp(I)
function dy = rate_eq(I,y)
dy = zeros(5,1);
o = 2E5; %detuning frequency
tc = 30E-9; %photon cavity lifetime
tf = 230E-6; %fluorescence lifetime
a1 = 0.1; %roundtrip loass
a2 = 0.1;
P1 = 0.2; %pumpstrength
P2 = 0.2;
kc = 3E-3; %critical coupling strength
s = 0.17;
k = s.*kc;
%amplitude equation
dy(1) = ((y(3) - a1) * y(1) + k * y(2) * cos(y(5))) ./ tc;
dy(2) = ((y(4) - a2) * y(2) + k * y(1) * cos(y(5))) ./ tc;
%gain medium strength
dy(3) = (P1 - y(3) * (((abs(y(1)))^2 .*I) + 1)) / tf;
dy(4) = (P2 - y(4) * (((abs(y(2)))^2 .*I) + 1)) / tf;
%phase differential equation
dy(5) = o - (k / tc) * (((y(1) ./ y(2)) + (y(2) ./ y(1))) * sin(y(5)));
end
  2 Comments
KSSV
KSSV on 12 Jul 2022
Though you define,dy = zeros(4,1)...you are defining
dy(5) = o - (k / tc) * (((y(1) ./ y(2)) + (y(2) ./ y(1))) * sin(y(5)));
so your dy is 5x1.

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