How do I calculate the pair distribution function, g(r), if I know a list of particle centres?

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I have a list of particle centre of mass in x, y, and z directions. I want to calculate the pair distribution function, g(r) that basically tells about the probability of finding a particle next to the reference particle. I followed the procedure given in this link How to calculate the pair correlation function g(r) (emory.edu), but didn't get the result as expected. This is what I tried.
count = 0;
for i = 1:np % np is the number of particles
for j = (i+1):np
dist = sqrt((x(i)-x(j))^2 + (y(i)-y(j))^2 + (z(i)-z(j))^2) % x, y, and z are the particle centre of mass
for r = 1:del_r:50 % for now i used del_r=1
volume(r) = 4*pi*r^2*del_r;
if (dist < r) && (dist < (r + del_r))
count = count + 1; % the problem is to count the number of particles that satisfy this if condition.
tot_count(r) = count/np;
end
end
end
cnt_ovr_vol = tot_count./volume;
num_den = np/(nx*ny*nz); %nx = ny = nz = 100;
g_r = (cnt_ovr_vol./num_den);
end
Does my code make sense as per the procedure in the link?

Answers (1)

Aditya Shah
Aditya Shah on 11 Oct 2022
Hi!
The following MATLAB File Exchange example, explains how to calculate the Pair distribution Function g(r):

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