49 lines
1.3 KiB
Matlab
49 lines
1.3 KiB
Matlab
function [evals, modes] = solveBogoliubovdeGennesIn2D(psi, Params, VDk, VParams, muchem)
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wz_tilde = Params.wz / Params.w0;
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gs = Params.gs;
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gdd = Params.gdd;
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gammaQF = Params.gammaQF;
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KEop = 0.5*kx.^2 + 0.5*ky.^2;
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Ez = (0.25*VParams.sigma^2) + (0.25*wz_tilde^2*VParams.sigma^2);
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muchem_tilde = muchem - Ez;
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gs_pf_2D = 1/(sqrt(2*pi)*VParams.sigma);
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gdd_pf_2D = sqrt(2/5)/(pi^(3/4)*VParams.sigma^(3/2));
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% eigs only works with column vectors
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psi = psi.';
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KEop = KEop.';
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VDk = VDk.';
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% Interaction Potential
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frho = fftn(abs(psi).^2);
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Phi = real(ifftn(frho.*VDk));
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H = @(w) real(ifft(KEop.*fft(w)));
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C = @(w) (((gs_pf_2D*gs*abs(psi).^2) + (gdd_pf_2D*gdd*Phi)).*w) + (gammaQF.* abs(psi).^3 .*w);
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muHC = @(w) (-muchem_tilde .* w) + H(w) + C(w);
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X = @(w,psi) (psi.*real(ifft(VDk.*fft(psi.*w)))) + (3/2)*(gammaQF.* abs(psi).^3).*w;
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BdG = @(g) muHC(muHC(g) + (2.*X(g)));
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syssize = size(psi);
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opts.v0 = psi(:);
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opts.tol = 1e-16;
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opts.disp = 1;
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opts.issym = 0;
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opts.isreal = 1;
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opts.maxit = 1e4;
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Neigs = syssize;
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[g,D] = eigs(BdG,syssize,Neigs,'sr',opts);
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evals = diag(D);
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clear D;
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% Eigenvalues
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evals = sqrt(evals);
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end
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