Nlevels_no_dopler_with_z %% field propagation z_1=z_1*100; % z in cm t_1=t_1*1e6; % time now measured in uS figure(1) subplot(2,2,1); imagesc(z_1, t_1, I1_out_1); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('I_1') title('I_1') subplot(2,2,2); imagesc(z_1, t_1, I2_out_1); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('I_2') title('I_2') subplot(2,2,3); imagesc(z_1, t_1, I3_out_1); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('I_3') title('I_3') subplot(2,2,4); imagesc(z_1, t_1, I4_out_1); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('I_4') title('I_4') print('-color','fields_propagation.eps') %% fields before and after the cell figure(2) subplot(2,2,1); plot( ... t_1,I1_out_1(:,1),'-;before;', "linewidth", 4, ... t_1,I1_out_1(:,end), '-;after;', "linewidth", 4 ... ) xlabel('t (uS)') ylabel('I_1 (1/s)^2') title('I_1 before and after cell') subplot(2,2,2); plot( ... t_1,I2_out_1(:,1),'-;before;', "linewidth", 4, ... t_1,I2_out_1(:,end), '-;after;', "linewidth", 4 ... ) xlabel('t (uS)') ylabel('I_2 (1/s)^2') title('I_2 before and after cell') subplot(2,2,3); plot( ... t_1,I3_out_1(:,1),'-;before;', "linewidth", 4, ... t_1,I3_out_1(:,end), '-;after;', "linewidth", 4 ... ) xlabel('t (uS)') ylabel('I_3 (1/s)^2') title('I_3 before and after cell') [b, a]=butter(3, 0.05); I2_out_after=I2_out_1(:,end); I2_out_after_filtered=filtfilt(b,a,I2_out_after); settling_time=0.8; %uS t_good_indx=t_1> min(t_1 + settling_time); [m,max_pos_before]=max(I2_out_1(t_good_indx,1) ); [m,max_pos_after]=max(I2_out_after_filtered(t_good_indx)); delay_time=t_1(max_pos_after)-t_1(max_pos_before); printf('Second field delay time = %f uS\n',delay_time); print('-color','fields_before_after_cell.eps') subplot(2,2,4); plot( ... t_1,I4_out_1(:,1),'-;before;', "linewidth", 4, ... t_1,I4_out_1(:,end), '-;after;', "linewidth", 4 ... ) xlabel('t (uS)') ylabel('I_3 (1/s)^2') title('I_3 before and after cell') figure(4) I2_max_in=max(I2_out_1(t_good_indx,1)); I2_max_out=max(I2_out_1(t_good_indx,end)); I2_in_norm=(I2_out_1(:,1))/I2_max_in; I2_out_norm=(I2_out_1(:,end))/I2_max_out; tmin=-0.05; tmax=0.05; indx=(t_1>=tmin & t_1<=tmax); % soom in in time to this region plot( ... t_1(indx),I2_in_norm(indx),'-;before;', "linewidth", 4, ... t_1(indx),I2_out_norm(indx), '-;after;', "linewidth", 4 ... ) xlim([tmin,tmax],'manual'); xlabel('t (uS)') ylabel('I_2') title('I_2 before and after cell normalized') print('-color','probe_before_after_cell.eps') return; %% all density matrix elements in one plot % diagonal populations, % upper triangle real part of coherences, % lower diagonal imaginary part of coherences z_2=z_2*100; % z in cm t_2=t_2*1e6; % time now measured in uS figure(3) subplot(4,4,1); imagesc (z_2, t_2, r11_out_2); caxis([0,1]); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('rho_{11}') title('rho_{11}') subplot(4,4,6); imagesc (z_2, t_2, r22_out_2); caxis([0,1]); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('rho_{22}') title('rho_{22}') subplot(4,4,11); imagesc (z_2, t_2, r33_out_2); caxis([0,1]); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('rho_{33}') title('rho_{33}') subplot(4,4,16); imagesc (z_2, t_2, r44_out_2); caxis([0,1]); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('rho_{44}') title('rho_{44}') % real parts of coherences subplot(4,4,2); imagesc(z_2, t_2, r12_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{12})') title('Real(rho_{12})') subplot(4,4,3); imagesc(z_2, t_2, r13_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{13})') title('Real(rho_{13})') subplot(4,4,4); imagesc(z_2, t_2, r14_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{14})') title('Real(rho_{14})') subplot(4,4,7); imagesc(z_2, t_2, r23_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{23})') title('Real(rho_{23})') subplot(4,4,8); imagesc(z_2, t_2, r24_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{24})') title('Real(rho_{24})') subplot(4,4,12); imagesc(z_2, t_2, r34_re_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Real(rho_{34})') title('Real(rho_{34})') % imaginary parts of coherences subplot(4,4,5); imagesc(z_2, t_2, r12_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{12})') title('Imag(rho_{12})') subplot(4,4,9); imagesc(z_2, t_2, r13_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{13})') title('Imag(rho_{13})') subplot(4,4,10); imagesc(z_2, t_2, r23_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{23})') title('Imag(rho_{23})') subplot(4,4,13); imagesc(z_2, t_2, r14_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{14})') title('Imag(rho_{14})') subplot(4,4,14); imagesc(z_2, t_2, r24_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{24})') title('Imag(rho_{24})') subplot(4,4,15); imagesc(z_2, t_2, r34_im_out_2); colorbar xlabel('z (cm)') ylabel('t (uS)') zlabel('Imag(rho_{34})') title('Imag(rho_{34})')