Vector convergence in cartesian coordinates

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Yasmin Tamimi 2014년 9월 25일

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https://kr.mathworks.com/matlabcentral/answers/156196-vector-convergence-in-cartesian-coordinates

편집: Yasmin Tamimi 2014년 9월 27일

Hey everyone,

How can I help my vector in cartesian coordinates converge to its resting point. The vector flips from +x-axis to the negative but instead of converging to it it keeps rotating around it!

Thanks in advance.

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Geoff Hayes 2014년 9월 25일

Yasmine - you might want to provide some context concerning what problem you are trying to solve. As well, posting some of the code may allow others to get an idea of what is happening and be in a better position to provide/offer some guidance.

Matt J 2014년 9월 26일

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Yasmine Tamimi Commented:

Ok,, so I have a magnetization vector that according to some torques flips from +x-axis to -x-axis.. the problem I'm facing is that it doesn't converge to -x-axis it keeps rotating.. So, what shall I add to help it converge?

Steps = 20000;  % Arrays size
time = 100e-9;     % Total time
dt = (time/(Steps));  % Time step  
Tswitch = 0:dt:time; % in seconds
 for t = 1:Steps %Euler's Method
    dtheta(t) = dt*((C1*G0)*(hMaz(t) + alpha*hMpol(t))) ; %3.1239
    dphi(t) = dt*(((C1*G0)/sin(theta(t)))*(alpha*hMaz(t)- hMpol(t))); %1.57
    theta(t+1) = theta(t) + dtheta(t) ; %3.1239
    phi(t+1) = phi(t) + dphi(t); %1.57
    Mi(t+1) = sin(theta(t+1))*cos(phi(t+1));
    Mj(t+1) = sin(theta(t+1))*sin(phi(t+1));
    Mk(t+1) = cos(theta(t+1));
    u(t+1) = (EAi*Mi(t+1))+(EAj*Mj(t+1))+(EAk*Mk(t+1)); % dot prod. of M and EA.
    Anis(t+1) = acos(u(t+1)); 
    epoli(t+1) = cos(theta(t+1))*cos(phi(t+1));
    epolj(t+1) = cos(theta(t+1))*sin(phi(t+1));
    epolk(t+1) = -sin(theta(t+1));
    eazi(t+1) = -sin(phi(t+1));
    eazj(t+1) = cos(phi(t+1));
    eazk(t+1) = 0 ;   
    ddu_acos(t+1) = -1/sqrt(1-(u(t+1)^2));
    du_dMpol(t+1) = (EAi*cos(theta(t+1))*cos(phi(t+1))+EAj*cos(theta(t+1))*sin(phi(t+1))- EAk*sin(theta(t+1)));
    du_dMaz(t+1) = sin(theta(t+1))*(EAj*cos(phi(t+1)) - EAi*sin(phi(t+1)));
    dd_Anis(t+1) = Ku*Vol*sin(2*Anis(t+1));
    g(t+1) = (-4 + ((1+P)^3)*(3+u(t+1))/(4*(P^1.5))) ;
    G(t+1) = 1/g(t+1) ;
    Ffi(t+1) = EAj*cos(theta(t+1)) - EAk*sin(theta(t+1))*sin(phi(t+1)) ;
    Ffj(t+1) = -EAi*cos(theta(t+1)) + EAk*sin(theta(t+1))*cos(phi(t+1)) ;
    Ffk(t+1) = EAi*sin(theta(t+1))*sin(phi(t+1))- EAj*sin(theta(t+1))*cos(phi(t+1)) ;
    hMpol(t+1) = - (dd_Anis(t+1) * ddu_acos(t+1) * du_dMpol(t+1))/C2 - ((Is*P_hbar/(2*P_Q*g(t+1)*C2))*((epoli(t+1)*Ffi(t+1))+(epolj(t+1)*Ffj(t+1))+(epolk(t+1)*Ffk(t+1))))- Ms*sin(2*theta(t+1))*((Nx-Nz)+ (Ny-Nx)*(sin(phi(t+1))^2))+((hx*cos(theta(t+1))*cos(phi(t+1))+hy*cos(theta(t+1))*sin(phi(t+1))-hz*sin(theta(t+1))));
    hMaz(t+1) = - (dd_Anis(t+1) * ddu_acos(t+1) * du_dMaz(t+1))/(C2*sin(theta(t+1)))- ((Is*P_hbar/(2*P_Q*g(t+1)*C2))*((eazi(t+1)*Ffi(t+1))+(eazj(t+1)*Ffj(t+1))))- Ms*(Ny-Nx)*sin(theta(t+1))*sin(2*phi(t+1))+(hy*cos(phi(t+1)) - hx*sin(phi(t+1))) ;    
 end

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Youssef Khmou 2014년 9월 25일

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https://kr.mathworks.com/matlabcentral/answers/156196-vector-convergence-in-cartesian-coordinates#answer_152905

There are 24 undefined variables C1;G0;hMaz;hMpol;Alpha;theta;phi;EAj;EAi;EAk;Ku;Vol;P;C2;Is;P_hbar;P_Q;Ms;Nx;Nz;Ny;hx;hy;hz;

I tired using random values but the vector hMaz gives NaN values, because we need precise values of these variables, because i think this is inside quantum box right?

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Youssef Khmou 2014년 9월 26일

Converging M means that the magnetization is zero? what about the volume ?

Yasmin Tamimi 2014년 9월 27일

편집: Yasmin Tamimi 2014년 9월 27일

Vector M is position vector initially its M=[Mi Mj Mk]= [1 0 0] and the end result must be [-1 0 0]. The volume stays constant bcz it is the area multiplied by the thickness of the material.

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