필터 지우기
필터 지우기

Integrating a complex function

조회 수: 12 (최근 30일)
Dmitry
Dmitry 2023년 10월 30일
댓글: Star Strider 2023년 10월 30일
I want to count such an expression:
This function depends on "D", and "k" is why I'm doing the integration. The sum is here because my complex integration limits "k1" and "k2" depend on "en". I calculate all this, but the resulting array turns out to be empty, with both the real and imaginary parts.
Thank you very much in advance!
my code:
z = 5;
D = 5:0.1:100;
e_f = 1.88e-18;
m = 9.11e-31;
k_b = 1.38e-23;
h_bar = 1.05e-34;
ksi = 1e-9;
t = 1;
k_f = (1/h_bar)*sqrt(2*m*e_f); % k_F
N_0 = k_f^3/(3*pi^2); % Here k = k_F
v_f = 1.57e6;
l = 1.5e-10;
tau = l / v_f;
gamma = h_bar / (2*pi * k_b * 1.2 * tau);
E = e_f / (pi * k_b * 1.2);
nD = floor(375/(2*pi.*t*1.2) - 0.5);
% Pre-allocation of the array for results
result = zeros(size(D));
for j = 1:length(D)
S12 = 0;
for n = 0:nD
k1 = (1 + 1i)/sqrt(2) * sqrt(t * (2 * n + 1) + gamma); % Set the value to k1
k2 = (1 + 1i)/sqrt(2) * sqrt(E + 1i*(t * (2 * n + 1)) + 1i*gamma); % Set the value to k2
S12 = S12 + integral(@(k) (sin(k.*z) .* sin(k.*(z-D(j))) ) ./ sin(k.*D(j)), k1, k2);
end
result(j) = S12;
end
plot(D, result);
  댓글 수: 3
이전 댓글 1개 표시
Dmitry
Dmitry 2023년 10월 30일
편집: Dmitry 2023년 10월 30일
Star Strider, that is, the problem is within the integration, and the rest of the code is correct?
Star Strider
Star Strider 2023년 10월 30일
@Dmitry — I cannot determine that. I do not understand what the code is supposed to do.
I can only say that it is not correct if the results are uniformly NaN. Something is obviously wrong, because the NaN values are likely the result of the sin functions returning only values for their arguments that are integer multiples of pi. I suspect that is not what you want.

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

답변 (1개)

Sulaymon Eshkabilov
Sulaymon Eshkabilov 2023년 10월 30일
Ran in:
Here are two points to consider:
(1) to specify the error tolerances and make them more crude, e.g.: 'RelTol',10,'AbsTol',0.1
(2) to compute Real and Imag parts of the function in separate corresponding to real and imaginary values of k1 and k2.
z = 5;
D = 5:0.1:100;
e_f = 1.88e-18;
m = 9.11e-31;
k_b = 1.38e-23;
h_bar = 1.05e-34;
ksi = 1e-9;
t = 1;
k_f = (1/h_bar)*sqrt(2*m*e_f); % k_F
N_0 = k_f^3/(3*pi^2); % Here k = k_F
v_f = 1.57e6;
l = 1.5e-10;
tau = l / v_f;
gamma = h_bar / (2*pi * k_b * 1.2 * tau);
E = e_f / (pi * k_b * 1.2);
nD = floor(375/(2*pi.*t*1.2) - 0.5);
%%
% Pre-allocation of the array for results
result = zeros(size(D));
for j = 1:length(D)
S12 = 0;
SI = 0;
SR = 0;
for n = 0:nD
k1 = (1 + 1i)/sqrt(2) * sqrt(t * (2 * n + 1) + gamma); % Set the value to k1
k2 = (1 + 1i)/sqrt(2) * sqrt(E + 1i*(t * (2 * n + 1)) + 1i*gamma); % Set the value to k2
k1R=real(k1); k2R=real(k2);
k1I=imag(k1); k2I=imag(k2);
SR = SR + integral(@(k) (sin(k.*z) .* sin(k.*(z-D(j))) ) ./ sin(k.*D(j)), k1R, k2R, 'RelTol',10,'AbsTol',0.1);
SI = SI + integral(@(k) (sin(k.*z) .* sin(k.*(z-D(j))) ) ./ sin(k.*D(j)), k1I, k2I, 'RelTol',10,'AbsTol',0.1);
% S12 = S12 + integral(@(k) (sin(k.*z) .* sin(k.*(z-D(j))) ) ./ sin(k.*D(j)), k1, k2, 'RelTol',10,'AbsTol',0.1);
end
R(j) = SR;
I(j) = SI;
% result(j) = S12;
end
%plot(D, result);
nexttile
plot(D, R)
ylabel('Real Part')
grid on
nexttile
plot(D, I)
ylabel('Imag part')
xlabel('D')
grid on
% If necessary, then Real and Imag parts can be combined
  댓글 수: 1
Torsten
Torsten 2023년 10월 30일
편집: Torsten 2023년 10월 30일
Ran in:
@Sulaymon Eshkabilov
I get a wrong result when I apply your way of complex integration.
Did I misunderstand your code suggestion ?
% Usual definition of complex integral (path-independent since f is
% holomorphic)
f = @(z) z.^2;
k1 = 1i;
k2 = -1 - 2*1i;
k = @(t) (1-t)*k1 + t*k2;
kdot = @(t)-k1+k2;
fun = @(t) f(k(t))*kdot(t);
I1 = integral(fun,0,1)
I1 = 3.6667 + 1.0000i
% Evaluation via antiderivative
1/3*(k2^3-k1^3)
ans = 3.6667 + 1.0000i
% Your way to integrate
k1R=real(k1); k2R=real(k2);
k1I=imag(k1); k2I=imag(k2);
IR = integral(f,k1R,k2R);
II = integral(f,k1I,k2I);
I2 = IR + 1i*II
I2 = -0.3333 - 3.3333i

댓글을 달려면 로그인하십시오.

카테고리

Help CenterFile Exchange에서 Calculus에 대해 자세히 알아보기

태그

제품

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by