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kp_3bands_DKK_f.m
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kp_3bands_DKK_f.m
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function[E]=kp_3bands_DKK_f(k_list, g1, g2, g3)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%% Constants %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
h=6.62606896E-34; %% Planck constant [J.s]
hbar=h/(2*pi);
e=1.602176487E-19; %% charge de l electron [Coulomb]
m0=9.10938188E-31; %% electron mass [kg]
H0=hbar^2/(2*m0) ;
L = H0*(-1-g1-4*g2);
M = H0*(-1-g1+2*g2);
N = -H0*6*g3;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%% Building of the Hamiltonien %%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
for i=1:length(k_list(:,1))
kx = k_list(i,1);
ky = k_list(i,2);
kz = k_list(i,3);
k=sqrt(kx.^2 + ky.^2 + kz.^2);
Hdiag = H0*k^2 * [1 1 1];
H_DKK=[
L*kx^2+M*(ky^2+kz^2) N*kx*ky N*kx*kz
N*kx*ky L*ky^2+M*(kx^2+kz^2) N*ky*kz
N*kx*kz N*ky*kz L*kz^2+M*(kx^2+ky^2)
];
H = diag(Hdiag) + H_DKK ;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
E(:,i) = eig(H)/e;
% Solution when k=[1 0 0]=[0 1 0]=[0 0 1]
%l1=(1+L ) /e*H0*k^2
%l2=(1+M ) /e*H0*k^2
% Solution when k=[1 1 0]=[1 0 1]=[0 1 1]
%l1=(1+(L+M+N)/2 ) /e*H0*k^2
%l2=(1+(L+M-N)/2 ) /e*H0*k^2
%l3=(1+M) /e*H0*k^2
% Solution when k=[1 1 1]
%l1=(1+(L+2*M+2*N)/3 ) /e*H0*k^2
%l2=(1+(L+2*M-N)/3 ) /e*H0*k^2
end
end