0 Stimmen

Hi, Could you help me how to integral function "fun" and get the q, then plot dL vs q. The code as below. Thanks a lot.
clear all; close all; clc
Gamma = 1;
kappa = 0.75*Gamma;
Dp = 0*Gamma;
Dc = 0*Gamma;
Finese = 350;
OD0 = 0.025;
OD = (Finese/pi)*OD0;
G = OD;
Oc = 2*Gamma;
Op = 0.00001*Gamma;
T0 = 1;
rR = 0*Gamma;
dL = linspace(-6*Gamma,6*Gamma,2000);
kappat = -i*kappa/2+Dp-dL-df;
Gammat = -i*Gamma/2-dL-df;
gammat = -i*rR/2+Dc-dL-df;
Gammaf = 0.00001*Gamma;
A = -4*gammat.*Gammat;
T = T0*(kappa/2)^2.*...
abs((A+Oc^2)./((G^2*gammat)+(kappat.*(A+Oc^2)))).^2;
fun = @(df) (exp(-(df^2/Gammaf^2))/(sqrt(pi)*Gammaf))*T;
q = integral(fun,-Inf,Inf)
figure(1)
plot(dL, q)
xlabel ('dL')
ylabel('Transmission signal')

2 Kommentare
Keine anzeigen Keine ausblenden

Sergey Kasyanov
Sergey Kasyanov am 21 Jun. 2021
Bearbeitet: Sergey Kasyanov am 21 Jun. 2021
Are kappat, Gammat, gammat functions of df?
What is dL? Why is it array?
Tina Hsiao
Tina Hsiao am 23 Jun. 2021
Yes! kappat, Gammat, gammat are functions of df. The dL is an array once I get the q result. I would like to put all the value (eg. Gamma = 1; kappa = 0.75*Gamma; Dp = 0*Gamma; Dc = 0*Gamma; ...etc into q and with different dL. And plot dL vs q.

Melden Sie sich an, um zu kommentieren.

Melden Sie sich an, um diese Frage zu beantworten.

 Akzeptierte Antwort

Star Strider
Star Strider am 23 Jun. 2021
Ran in:

0 Stimmen

Ran in:
kappat, Gammat, gammat are functions of df.’
I created them (as well as ‘A’, ‘T’, and ‘fun’) as anonymous functions of ‘df’ to define them as such.
Check this to be certain it prooduces the desired result, otherwise make necessary corrections (since I do not understand what this code does) —
Gamma = 1;
kappa = 0.75*Gamma;
Dp = 0*Gamma;
Dc = 0*Gamma;
Finese = 350;
OD0 = 0.025;
OD = (Finese/pi)*OD0;
G = OD;
Oc = 2*Gamma;
Op = 0.00001*Gamma;
T0 = 1;
rR = 0*Gamma;
dL = linspace(-6*Gamma,6*Gamma,2000);
kappat = @(df) -i*kappa./2+Dp-dL-df;
Gammat = @(df) -i*Gamma./2-dL-df;
gammat = @(df) -i*rR./2+Dc-dL-df;
Gammaf = 0.00001*Gamma;
A = @(df) -4*gammat(df).*Gammat(df);
T = @(df) T0*(kappa/2)^2.*...
abs((A(df)+Oc^2)./((G^2*gammat(df))+(kappat(df).*(A(df)+Oc^2)))).^2;
fun = @(df) (exp(-(df.^2./Gammaf^2))./(sqrt(pi)*Gammaf)).*T(df);
q1 = integral(fun,-Inf,0, 'ArrayValued',1);
q2 = integral(fun,0,Inf, 'ArrayValued',1);
q = q1 + q2;
figure(1)
plot(dL, q)
xlabel ('dL')
ylabel('Transmission signal')
Since ‘q’ as originally defined is uniformly 0, I broke it into two regions and added them.
.

2 Kommentare
Keine anzeigen Keine ausblenden

Tina Hsiao
Tina Hsiao am 25 Jun. 2021
Prima! Thanks a lot...I like this solution.
Star Strider
Star Strider am 25 Jun. 2021
As always, my pleasure!
Thank you!

Melden Sie sich an, um zu kommentieren.

Weitere Antworten (0)

Kategorien

Mehr zu Gamma Functions finden Sie in Hilfe-Center und File Exchange

Produkte

Version

R2017a

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by