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The two coupled equations are as follows: where i->sqrt(-1); 'u_t' refers to the first order derivative w.r.t. the time 't', 'u_z' is the first order derivative w.r.t. 'z', similarly, 'u_tt' means second order derivative w.r.t. time. |u|^2 is u*conjugate(u).



I have solved such single equation, but how to solve such two-coupled equations in MATLAB?

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How did you solve the single equation in Matlab? Please show your code rather than equations (this is a programming site which is why it unfortunately doesn't support TeX). And what are you actually solving for? Are you doing this symbolically or numerically? –  horchler Feb 19 at 16:36
I am solving for amplitudes u and v NUMERICALLY. –  Miracles Feb 20 at 7:34

1 Answer 1

From the link here

Partial differential equations with pdepe

MATLAB's pdepe solves a class of parabolic/elliptic PDE systems. The time-dependent Schrodinger equation is an example of parabolic PDE while the Poisson equation is an example of elliptic PDE. We will not discuss the use of pdepe in the class but refer you to the MATLAB's documentation for the details.

Looks like your best bet is to look at pdepe as an example of a parabolic PDE.

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