integral vs trapz vs sum
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The result obtained from trapz() differs in sign compared to the approximation from integral() and the summation approach for the following integration (note that integration is taken over E). From the following code, I get:
1.7136 from integral(),
-1.7099 from trapz(),
1.7136 from sum().
Why trapz() sign is different?
clear; clc;
%----------------------------- some constants -----------------------------
kx = -2*pi/(3*sqrt(3));
ky = 1*pi/3;
T = 10;
J = 1;
D = 0.8;
S = 1;
eta = 0.01;
beta = 1/(0.0863*T);
s0 = eye(2);
sx = [0, 1; 1, 0];
sy = [0, -1i; 1i, 0];
sz = [1, 0; 0, -1];
h0 = 3 * J * S;
hx = -J * S * (cos(ky / 2 - (3^(1/2) * kx) / 2) + cos(ky / 2 + (3^(1/2) * kx) / 2) + cos(ky));
hy = -J * S * (sin(ky / 2 - (3^(1/2) * kx) / 2) + sin(ky / 2 + (3^(1/2) * kx) / 2) - sin(ky));
hz = -2 * D * S * (sin(3^(1/2) * kx) + sin((3 * ky) / 2 - (3^(1/2) * kx) / 2) - sin((3 * ky) / 2 + (3^(1/2) * kx) / 2));
H = s0*h0 + sx*hx + sy*hy + sz*hz;
dkx_hx = -J*S*((3^(1/2)*sin(ky/2 - (3^(1/2)*kx)/2))/2 - (3^(1/2)*sin(ky/2 + (3^(1/2)*kx)/2))/2);
dkx_hy = J*S*((3^(1/2)*cos(ky/2 - (3^(1/2)*kx)/2))/2 - (3^(1/2)*cos(ky/2 + (3^(1/2)*kx)/2))/2);
dkx_hz = 2*D*S*((3^(1/2)*cos((3*ky)/2 - (3^(1/2)*kx)/2))/2 - 3^(1/2)*cos(3^(1/2)*kx) + (3^(1/2)*cos((3*ky)/2 + (3^(1/2)*kx)/2))/2);
dky_hx = J*S*(sin(ky/2 - (3^(1/2)*kx)/2)/2 + sin(ky/2 + (3^(1/2)*kx)/2)/2 + sin(ky));
dky_hy = -J*S*(cos(ky/2 - (3^(1/2)*kx)/2)/2 + cos(ky/2 + (3^(1/2)*kx)/2)/2 - cos(ky));
dky_hz = -2*D*S*((3*cos((3*ky)/2 - (3^(1/2)*kx)/2))/2 - (3*cos((3*ky)/2 + (3^(1/2)*kx)/2))/2);
X = sx*dkx_hx + sy*dkx_hy + sz*dkx_hz;
Y = sx*dky_hx + sy*dky_hy + sz*dky_hz;
G0R = @(E) inv(E*s0 - H + 1i*eta*s0);
fE = @(E) 1/( exp(beta*E) - 1 );
%--------------------------------------------------------------------------
%function:
fun = @(E) real(trace(1/2*fE(E)*E^2*(G0R(E)*X*G0R(E)*Y*G0R(E) - G0R(E)*Y*G0R(E)*X*G0R(E)) + (1/2*fE(E)*E^2*(G0R(E)*X*G0R(E)*Y*G0R(E) - G0R(E)*Y*G0R(E)*X*G0R(E)))'));
funn = @(E) arrayfun( @(E)fun(E), E ); %arrayfun
%limits:
Emin = -10;
Emax = 30;
dE = 1e-4;
Es = Emin:dE:Emax;
%integration using integral()
I_int = integral(funn,Emin,Emax);
%integration using trapz()
funn_values = funn(Es);
[~,indx] = find(isnan(funn_values)); % replacing NaN with mean value
for idx = indx
funn_values(idx) = ( funn_values(idx-1)+funn_values(idx+1) )/2;
end
I_trapz = trapz(funn_values,Es);
%integration using sum()
I_sum = sum(funn_values(:))*dE;
I = [I_int, I_trapz, I_sum]
% output: [1.7136 -1.7099 1.7136]
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채택된 답변
John D'Errico
2024년 1월 29일
SIMPLE. READ THE HELP.
help trapz
So the call to trapz should have been
I_trapz = trapz(Es,funn_values);
Changing that,
kx = -2*pi/(3*sqrt(3));
ky = 1*pi/3;
T = 10;
J = 1;
D = 0.8;
S = 1;
eta = 0.01;
Emin = -10;
Emax = 30;
dE = 1e-4;
Es = Emin:dE:Emax;
NE = length(Es);
beta = 1/(0.0863*T);
s0 = eye(2);
sx = [0, 1; 1, 0];
sy = [0, -1i; 1i, 0];
sz = [1, 0; 0, -1];
h0 = 3 * J * S;
hx = -J * S * (cos(ky / 2 - (3^(1/2) * kx) / 2) + cos(ky / 2 + (3^(1/2) * kx) / 2) + cos(ky));
hy = -J * S * (sin(ky / 2 - (3^(1/2) * kx) / 2) + sin(ky / 2 + (3^(1/2) * kx) / 2) - sin(ky));
hz = -2 * D * S * (sin(3^(1/2) * kx) + sin((3 * ky) / 2 - (3^(1/2) * kx) / 2) - sin((3 * ky) / 2 + (3^(1/2) * kx) / 2));
H = s0*h0 + sx*hx + sy*hy + sz*hz;
dkx_hx = -J*S*((3^(1/2)*sin(ky/2 - (3^(1/2)*kx)/2))/2 - (3^(1/2)*sin(ky/2 + (3^(1/2)*kx)/2))/2);
dkx_hy = J*S*((3^(1/2)*cos(ky/2 - (3^(1/2)*kx)/2))/2 - (3^(1/2)*cos(ky/2 + (3^(1/2)*kx)/2))/2);
dkx_hz = 2*D*S*((3^(1/2)*cos((3*ky)/2 - (3^(1/2)*kx)/2))/2 - 3^(1/2)*cos(3^(1/2)*kx) + (3^(1/2)*cos((3*ky)/2 + (3^(1/2)*kx)/2))/2);
dky_hx = J*S*(sin(ky/2 - (3^(1/2)*kx)/2)/2 + sin(ky/2 + (3^(1/2)*kx)/2)/2 + sin(ky));
dky_hy = -J*S*(cos(ky/2 - (3^(1/2)*kx)/2)/2 + cos(ky/2 + (3^(1/2)*kx)/2)/2 - cos(ky));
dky_hz = -2*D*S*((3*cos((3*ky)/2 - (3^(1/2)*kx)/2))/2 - (3*cos((3*ky)/2 + (3^(1/2)*kx)/2))/2);
X = sx*dkx_hx + sy*dkx_hy + sz*dkx_hz;
Y = sx*dky_hx + sy*dky_hy + sz*dky_hz;
G0R = @(E) inv(E*s0 - H + 1i*eta*s0);
fE = @(E) 1/( exp(beta*E) - 1 );
%--------------------------------------------------------------------------
%function:
fun = @(E) real(trace(1/2*fE(E)*E^2*(G0R(E)*X*G0R(E)*Y*G0R(E) - G0R(E)*Y*G0R(E)*X*G0R(E)) + (1/2*fE(E)*E^2*(G0R(E)*X*G0R(E)*Y*G0R(E) - G0R(E)*Y*G0R(E)*X*G0R(E)))'));
funn = @(E) arrayfun( @(E)fun(E), E ); %arrayfun
%integration using integral()
I_int = integral(funn,Emin,Emax);
%integration using trapz()
funn_values = funn(Es);
[~,indx] = find(isnan(funn_values)); % replacing NaN with mean value
for idx = indx
funn_values(idx) = ( funn_values(idx-1)+funn_values(idx+1) )/2;
end
I_trapz = trapz(Es,funn_values);
%integration using sum()
I_sum = sum(funn_values(:))*dE;
I = [I_int, I_trapz, I_sum]
댓글 수: 2
John D'Errico
2024년 1월 29일
Lol. Honestly, I've tripped on it a few times in the past too. At least until you trip enough times that you no longer stub your big toe there.
Logically, if I were to write trapz, then if y is the first argument if called as trapz(y), then if you call it with TWO arguments, it SHOULD be trapz(y,x). SERIOUSLY, trapz is just begging for new users to trip over that. Sadly, I did not write trapz.
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