%Permute all possible lens combinations out of set of lenses lens_set = [.075, .203, .05, .03]; lens_set = [.075,.203]; lens_permutations = pick(lens_set,3,'or'); %Pre-defined Constants lambda= 1.064E-6 ; Ltot= 1.010675025828971 ; r0= 1.0E+100 ; w0= 2.563E-5 ; x0= 0 ; wf= 3.709E-5 ; rf= 1.0E+100 ; xf= Ltot; q0=wr2q(w0,r0,lambda); qf=wr2q(wf,rf,lambda); %End list %Mode match [ possible_lens_placement, initial_lens_placement, possible_lens_set, possible_sample_energy] = mode_match( q0, qf, Ltot, lambda, lens_permutations ); %Remove similar solutions n_truncate = 3; %number of digits in truncated solution [ possible_lens_placement_uniq, possible_lens_placement, possible_sample_energy, possible_lens_set, index ] = remove_similar_soln( possible_sample_energy, possible_lens_placement, possible_lens_set, n_truncate ); n_visualizations = 20; %number of best solutions to visualize n_hist = 10000; pick_visualization( possible_sample_energy, possible_lens_placement_uniq, possible_lens_placement, possible_lens_set, index, n_visualizations, q0, qf, Ltot, lambda ); [stability]= stability_visualization( possible_lens_placement_uniq, q0, qf, xf, possible_lens_placement, possible_lens_set, lambda, n_visualizations, n_hist, index ) energy_vs_stability( possible_sample_energy, stability, index) % %Visualize fitness function for fixed f2 and f3 % lens_set = [.075, .075, .203]; % f2= 0.40361319425309 ; % f3= 0.80361319425309 ; % % fitness_simplified=@(x) fitness(q0, qf, Ltot, [x, f2, f3], lens_set, lambda ); % figure(6) % ezplot(fitness_simplified, [0,Ltot])