diff options
-rw-r--r-- | compass_circ.m | 8 | ||||
-rw-r--r-- | compass_circ_output_results.m | 2 |
2 files changed, 5 insertions, 5 deletions
diff --git a/compass_circ.m b/compass_circ.m index d80d179..59341e6 100644 --- a/compass_circ.m +++ b/compass_circ.m @@ -84,9 +84,9 @@ fflush (stderr); detuning_freq=[-.075, -.05, -.025, 0 , .025, .05 , .075, .1]; problem_cntr=1; -N_angle_steps=31; +N_angle_steps=101; min_angle=0; max_angle=pi; -thetas=min_angle:((max_angle-min_angle)/N_angle_steps):max_angle; +thetas=linspace(min_angle,max_angle, N_angle_steps); for theta=thetas; for detuning_p_cntr=1:length(detuning_freq); @@ -125,7 +125,7 @@ for theta=thetas; endfor endfor -save '/tmp/problem_definition.mat' problems_cell_array atom_properties detuning_freq theta; +%save '/tmp/problem_definition.mat' problems_cell_array atom_properties detuning_freq theta; fprintf (stderr, "now really hard calculations begin\n"); fflush (stderr); % once we define all problems the main job is done here @@ -138,7 +138,7 @@ total_relative_transmission_vs_theta=cellfun(@total_relative_transmission, probl %save 'xi_vs_detuning.mat' detuning_freq xi_linear xi_left xi_right ; problem_cntr--; -save '/tmp/total_relative_transmission_vs_theta.mat' detuning_freq total_relative_transmission_vs_theta thetas problem_cntr; +save './cached/total_circ_relative_transmission_vs_theta.mat' detuning_freq total_relative_transmission_vs_theta thetas problem_cntr; compass_circ_output_results; diff --git a/compass_circ_output_results.m b/compass_circ_output_results.m index 837c8ac..7ce2815 100644 --- a/compass_circ_output_results.m +++ b/compass_circ_output_results.m @@ -1,7 +1,7 @@ 1; -load '/tmp/total_relative_transmission_vs_theta.mat' ; +load './cached/total_circ_relative_transmission_vs_theta.mat' % let's create sideband transmission vs angle vectors % 1st of all we need to create matrix instead of a vector |