Doubt regarding pdepe in matlab

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Pavan Kumar
Pavan Kumar el 14 de Jul. de 2017
Comentada: Torsten el 14 de Jul. de 2017
Hii Friends,
Could you give me your suggestion regarding this problem.
I have the following equation where in the initial, boundary conditions and other parameters have been specified.
I was able to solve in matlab using the following code
%---pdepe function-----% function [c,f,s] = gvdpde(t,z,u,DuDt) i = sqrt(-1); beta2 = -2.907e-25; T0 = 35e-12; %Ld = T0^2/abs(beta2); Ld = 4500; c = (2*i*Ld)./T0^2; f = DuDt; s = 0;
%---Initial condition----% function u0 = gvdic(t) T0 = 35e-12; u0 = exp(-0.5.*(t/T0).^2);
%-----Boundary condition-----% function [pl,ql,pr,qr] = gvdbc(tl,ul,tr,ur,z) pl = 0; ql = 1; pr = ur - 1; qr = 1;
%-----Main function-----% function gvd
clc; clear all; close all;
m = 0; T0 = 35e-12; t = linspace(-30*T0,30*T0,150); z = linspace(0,1000,100); z1 = linspace(0,4500,100); z2 = linspace(0,45000,100);
sol = pdepe(m,@gvdpde,@gvdic,@gvdbc,t,z); sol1 = pdepe(m,@gvdpde,@gvdic,@gvdbc,t,z1); sol2 = pdepe(m,@gvdpde,@gvdic,@gvdbc,t,z2); % Extract the first solution component as u. u = sol(:,:,1); u1 = sol1(:,:,1); u2 = sol2(:,:,1);
% A surface plot is often a good way to study a solution. surf(t,z,abs(u2)); title('Numerical solution computed with 20 mesh points.'); xlabel('Time t'); ylabel('Distance z'); % A solution profile can also be illuminating. figure; plot(t,abs(u(end,:)),t,abs(u1(end,:)),t,abs(u2(end,:)),'LineWidth',2); legend('z<<Ld','z=Ld','z>Ld'); xlabel('Time t'); ylabel('Intensity'); grid on % --------------------------------------------------------------
Now in the next step i need to add 3'rd order flux term as shown in the snap
Is it possible to solve it using the same pdepe function. Can anyone give me an hint to solve this.
Awaiting your kind replies.
pa1
  5 comentarios
Pavan Kumar
Pavan Kumar el 14 de Jul. de 2017
I have mentioned the boundary condition in terms of pdepe bc format in the first pic.Will it be sufficient?
Torsten
Torsten el 14 de Jul. de 2017
Isn't it true that usually, the degree of the PDE in space determines the number of boundary conditions ? In this case, you had to supply three conditions.
Best wishes
Torsten.

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