import matplotlib.pyplot as plt from python.ste import * from python.helpers import * # Simulation parameter motion = 'IsotropicAngle' distribution = 'Delta' # parameter = {} parameter = { "angle": np.linspace(3, 150, num=148), # "sigma": 0.1, # "tau": np.logspace(-1, 1, num=3) } parameter = prepare_rw_parameter(parameter) # fig_tau_cc, ax_tau_cc = plt.subplots() # ax_tau_cc.set_title('tau_cc') # # fig_beta_cc, ax_beta_cc = plt.subplots() # ax_beta_cc.set_title('beta_cc') # # fig_finfty_cc, ax_finfty_cc = plt.subplots() # ax_finfty_cc.set_title('f_infty_cc') # # fig_tau_ss, ax_tau_ss = plt.subplots() # ax_tau_ss.set_title('tau_ss') # # fig_beta_ss, ax_beta_ss = plt.subplots() # ax_beta_ss.set_title('beta_ss') # # fig_finfty_ss, ax_finfty_ss = plt.subplots() # ax_finfty_ss.set_title('f_infty_ss') tau_ss_angles = [] tau_cc_angles = [] tau_2_angles = [] angles = [] for variation in parameter: print(f"\nRun RW for {motion}/{distribution} with arguments {variation}\n") run_sims(motion, distribution, ste=True, spectrum=False, **variation) conf_file = find_config_file(motion, distribution, variation) vary_string, tau_cc, beta_cc, finfty_cc = fit_and_save_ste(conf_file, 'coscos', plot_decays=False, verbose=False) _, tau_ss, beta_ss, finfty_ss = fit_and_save_ste(conf_file, 'sinsin', plot_decays=False, verbose=False) _, tau_2, beta_2, finfty_2 = fit_and_save_ste(conf_file, 'f2', plot_decays=False, verbose=True) # ax_tau_cc.semilogy(tau_cc[:, 0], tau_cc[:, 1], label=vary_string) # ax_tau_cc.axhline(tau_2[:, 1], color='k', linestyle='--') # ax_beta_cc.plot(*beta_cc.T, label=vary_string) # ax_finfty_cc.plot(*finfty_cc.T, label=vary_string) # ax_tau_ss.semilogy(tau_ss[:, 0], tau_ss[:, 1], label=vary_string) # ax_tau_ss.axhline(tau_2[:, 1], color='k', linestyle='--') # ax_beta_ss.plot(*beta_ss.T, label=vary_string) # ax_finfty_ss.plot(*finfty_ss.T, label=vary_string) angles.append(variation['angle']) tau_ss_angles.append(tau_ss[0, 1]) tau_cc_angles.append(tau_cc[0, 1]) tau_2_angles.append(tau_2[0, 1]) fig, ax = plt.subplots() ax.semilogy(angles, tau_ss_angles, 'o', label='SS (4.9mus)') ax.plot(angles, tau_cc_angles, 'o', label='CC (4.9mus)') ax.plot(angles, tau_2_angles, 'o', label='F2') ax.legend() np.savetxt('angle.dat', np.c_[angles, tau_cc_angles, tau_ss_angles, tau_2_angles], header='#x\tcc\tss\tf2') fig2, ax2 = plt.subplots() ax2.plot(angles, np.array(tau_cc_angles)/np.array(tau_2_angles), 'o') # for ax in [ax_tau_cc, ax_beta_cc, ax_finfty_cc, ax_tau_ss, ax_beta_ss, ax_finfty_ss]: # ax.legend() plt.show()