kp_8bands_Luttinger_Pistol_f.m

function[E]=kp_8bands_Luttinger_Pistol_f(k_list, Eg, EP, Dso, F, g1, g2, g3)

% Craig E. Pryor and M. E. Pistol
% "Atomistic k.p theory", Journal of Applied Physics 118, 225702 (2015); 
% https://doi.org/10.1063/1.4936170
% https://www.researchgate.net/publication/273067732_Atomistic_kp_theory

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%% 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) ;

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Dso = Dso*e;
Eg  = Eg*e;
EP  = EP*e;
P0  = sqrt(EP*hbar^2/(2*m0)) ; % Here I use "P0" instead of "P" because it uses "P" inside the H for something else

% gc= 1+2*F + EP*(Eg+2*Dso/3) / (Eg*(Eg+Dso)) ;   % =1/mc  electron in CB eff mass

% renormalization of the paramter from 6x6kp to 8x8kp
% gc=gc-EP/3*( 2/Eg + 1/(Eg+Dso) );

gc = 1+2*F;
g1 = g1-EP/(3*Eg);
g2 = g2-EP/(6*Eg);
g3 = g3-EP/(6*Eg);

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%% Building of the Hamiltonien %%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%k+ =  kx + 1i*ky
%k- =  kx - 1i*ky

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);
kpp =  kx + 1i*ky;
kmm =  kx - 1i*ky;

B =  0;
A =  Eg + gc*H0 * k^2;
U =  sqrt(1/3) * P0 * kz;
V =  sqrt(1/6) * P0 * kmm;
W =  1i*sqrt(1/3)*B * kx*ky;
T =  sqrt(1/6)*B * kz*kpp;
P = -g1*H0 * k^2;
Q = -g2*H0 *(kx^2 + ky^2 - 2*kz^2);
R = -H0 * sqrt(3)  * (g2*(kx^2-ky^2) - 2i*g3*kx*ky );
S =  H0 *2*sqrt(3) * g3*(kx-1i*ky)*kz;

Hdiag = [A A P-Q P+Q P+Q P-Q -Dso+P -Dso+P];


% Ec  Ec      LH                 HH               HH             LH             SO             SO
H=[
  0   0      T'+V'                0        -sqrt(3)*(T-V)  sqrt(2)*(W-U)       (W-U)       sqrt(2)*(T'+V')  % Ec
  0   0   sqrt(2)*(W-U)   -sqrt(3)*(T'+V')         0            (T-V)     -sqrt(2)*(T-V)      W'+U          % Ec
  0   0        0                 -S'               R              0        sqrt(3/2)*S     sqrt(2)  *Q      % LH
  0   0        0                  0                0              R       -sqrt(2)  *R     sqrt(1/2)*S      % HH
  0   0        0                  0                0              S'       sqrt(1/2)*S'    sqrt(2)  *R'     % HH
  0   0        0                  0                0              0       -sqrt(2)  *Q     sqrt(3/2)*S'     % LH
  0   0        0                  0                0              0              0              0           % SO
  0   0        0                  0                0              0              0              0           % SO
];

H=H'+H+diag(Hdiag);

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

E(:,i) = eig(H)/e;

end

end