function [q] = gbeam_propagation_froward_only(x_pos, q_in, x_in, optics_elements) % calculate the 'q' parameter of the Gaussian beam propagating through optical % 'optics_elements' only in the positive direction along 'x' axis at points 'x_pos' % takes the gaussian beam with initial q_in parameter at x_in % Note!: if optics element position coinside with a x_pos at some place % the reported value will be the one calculated after the element % so the resulting value will coinside with submitted q_in % % all x_pos must be to the right of x_in % x_pos must be monotonic! %Initialize q_lens (q at position of lens) q_lens = zeros(1,size(optics_elements,2)); if (any(x_pos < x_in)) error('all beam positions must be to the right of the x_in'); end optics_elements=arrange_optics_along_x(optics_elements); % Forward propagation to the right of x_in q=0*x_pos; % q vector initialization q_last_calc=q_in; x_last_calc=x_in; % the furthest calculated point for k = 1:length(optics_elements) el=optics_elements{k}; elx = el.x; if elx > x_last_calc %Find all points to the left of the current optical element index = (x_last_calc <= x_pos) & (x_pos < elx); if any(index) x=x_pos(index); q_tmp=q_after_free_space(q_last_calc,x-x_last_calc); q(index)=q_tmp; x_last_calc=x(end); q_last_calc=q_tmp(end); end %propagate beam up to the lens q_at_lens = q_after_free_space(q_last_calc,elx - x_last_calc); %Applying lens transformation q_last_calc=q_after_abcd(q_at_lens,el.abcd); x_last_calc = elx; end end %points to the right of the last optical element index = (x_last_calc <= x_pos); x=x_pos(index); q(index)= q_after_free_space(q_last_calc,x-x_last_calc); end %!test %! lambda= 1.064E-6 ; %! f1=0.1526; %! lns1.abcd=abcd_lens( f1) ; %! lns1.x= 0.2; %! f2=0.019; %! lns2.abcd=abcd_lens( f2) ; %! lns2.x= lns1.x+ f1 + f2; %! lns3.abcd=abcd_lens( 0.0629) ; %! lns3.x= 0.500; %! q0=1.8098e-96 + 1.3453e+02i; %! x0=0; %! optics={lns1,lns2,lns3}; %! x=[0, 0.1, 0.2, 0.3, 0,4, 0.5, 0.6, 0.7]; %! q_test = [1.8098e-96 + 1.3453e+02i, 1.0000e-01 + 1.3453e+02i, -1.5260e-01 + 1.7310e-04i, -5.2600e-02 + 1.7310e-04i, -5.2600e-02 + 1.7310e-04i, 3.4371e+00 + 1.8961e-03i, 3.4371e+00 + 1.8961e-03i, 3.4371e+00 + 1.8961e-03i, 3.4371e+00 + 1.8961e-03i]; %! %! q=gbeam_propagation(x,q0,x0,optics); %! assert(q,q_test, -1e-4)