I am plotting a series of probability density functions (PDFs) with log scales for both axes. Problem is, they keep changing depending on which data I am analyzing. I'd like to fix the Y-axis from 10^-12 to 10^-28, and X-axis from 10^10 to 10^20. Any ideas?

Thanks!

```
clc;
clear all;
load Aug2005_basin_variables.mat
% Initialize
j_len = length(W_SH);
prob_dens_all = zeros(j_len,30);
ii = 1 : j_len;
count(1:30) = 0;
bin(1:30) = 0;
for i = 1 : 30
bin(i) = 10^(11 + (0.3*i));
end
% Bin the Watts
for i = 1 : j_len
if((log10(W_SH(i)) >= 11) && (log10(W_SH(i)) < 11.3))
count(1) = count(1) + 1;
end
if((log10(W_SH(i)) >= 11.3) && (log10(W_SH(i)) < 11.6))
count(2) = count(2) + 1;
end
if((log10(W_SH(i)) >= 11.6) && (log10(W_SH(i)) < 11.9))
count(3) = count(3) + 1;
end
if((log10(W_SH(i)) >= 11.9) && (log10(W_SH(i)) < 12.2))
count(4) = count(4) + 1;
end
if((log10(W_SH(i)) >= 12.2) && (log10(W_SH(i)) < 12.5))
count(5) = count(5) + 1;
end
if((log10(W_SH(i)) >= 12.5) && (log10(W_SH(i)) < 12.8))
count(6) = count(6) + 1;
end
if((log10(W_SH(i)) >= 12.8) && (log10(W_SH(i)) < 13.1))
count(7) = count(7) + 1;
end
if((log10(W_SH(i)) >= 13.1) && (log10(W_SH(i)) < 13.4))
count(8) = count(8) + 1;
end
if((log10(W_SH(i)) >= 13.4) && (log10(W_SH(i)) < 13.7))
count(9) = count(9) + 1;
end
if((log10(W_SH(i)) >= 13.7) && (log10(W_SH(i)) < 14.0))
count(10) = count(10) + 1;
end
if((log10(W_SH(i)) >= 14.0) && (log10(W_SH(i)) < 14.3))
count(11) = count(11) + 1;
end
if((log10(W_SH(i)) >= 14.3) && (log10(W_SH(i)) < 14.6))
count(12) = count(12) + 1;
end
if((log10(W_SH(i)) >= 14.6) && (log10(W_SH(i)) < 14.9))
count(13) = count(13) + 1;
end
if((log10(W_SH(i)) >= 14.9) && (log10(W_SH(i)) < 15.2))
count(14) = count(14) + 1;
end
if((log10(W_SH(i)) >= 15.2) && (log10(W_SH(i)) < 15.5))
count(15) = count(15) + 1;
end
if((log10(W_SH(i)) >= 15.5) && (log10(W_SH(i)) < 15.8))
count(16) = count(16) + 1;
end
if((log10(W_SH(i)) >= 15.8) && (log10(W_SH(i)) < 16.1))
count(17) = count(17) + 1;
end
if((log10(W_SH(i)) >= 16.1) && (log10(W_SH(i)) < 16.4))
count(18) = count(18) + 1;
end
if((log10(W_SH(i)) >= 16.4) && (log10(W_SH(i)) < 16.7))
count(19) = count(19) + 1;
end
if((log10(W_SH(i)) >= 16.7) && (log10(W_SH(i)) < 17.0))
count(20) = count(20) + 1;
end
if((log10(W_SH(i)) >= 17.3) && (log10(W_SH(i)) < 17.6))
count(21) = count(21) + 1;
end
if((log10(W_SH(i)) >= 17.6) && (log10(W_SH(i)) < 17.9))
count(22) = count(22) + 1;
end
if((log10(W_SH(i)) >= 17.9) && (log10(W_SH(i)) < 18.2))
count(23) = count(23) + 1;
end
if((log10(W_SH(i)) >= 18.2) && (log10(W_SH(i)) < 18.5))
count(24) = count(24) + 1;
end
if((log10(W_SH(i)) >= 18.5) && (log10(W_SH(i)) < 18.8))
count(25) = count(25) + 1;
end
if((log10(W_SH(i)) >= 18.8) && (log10(W_SH(i)) < 19.1))
count(26) = count(26) + 1;
end
if((log10(W_SH(i)) >= 19.1) && (log10(W_SH(i)) < 19.4))
count(27) = count(27) + 1;
end
if((log10(W_SH(i)) >= 19.4) && (log10(W_SH(i)) < 19.7))
count(28) = count(28) + 1;
end
if((log10(W_SH(i)) >= 19.7) && (log10(W_SH(i)) < 20.0))
count(29) = count(29) + 1;
end
if((log10(W_SH(i)) >= 20.0) && (log10(W_SH(i)) < 20.3))
count(30) = count(30) + 1;
end
end
for i=1:30
prob(i) = count(i)/sum(count);
prob_dens(i) = prob(i)/bin(i);
end
% Check
sum(prob_dens.*bin);
prob_dens_all(i,:) = prob_dens(:);
%end
prob_dens_mean = zeros(1,30);
for i = 1 : 30
prob_dens_mean(1,i) = mean(prob_dens_all(:,i));
%prob_dens_std(1,i) = std(prob_dens_all(:,i));
end
% Plot
best_fit = polyfit(bin,log10(prob_dens_mean),11)
h = figure;
loglog(bin,prob_dens_mean,'ro','MarkerSize',10)
hold on;
plot(best_fit,'b')
t = title('Event Power Distribution, SHem, August 2005');
set(t, 'FontWeight', 'bold', 'FontSize', 12)
set(gca, 'FontWeight', 'bold', 'FontSize', 12)
xlabel('Event Power (W)');
ylabel('Probability Density');
print -dpng SHem_Wattage_PDF_AUG2005.png
```