N-Body Solar System Simulator - Why are there innacuracies in the x plane but not the others?

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I have written a basic N-Body simulator that simulates the motion of the planets in the solar system.
The system reads the positions and velocities of the planets at a given time, measures the time for one full orbit of each planet and then compares the accuracy of the simulation against a highly accurate model.
I have analysed the data in the x, y and z planes. Interestingly, the simulation is highly accurate in the y and z planes but about 10x less accurate in the x plane. See attached graph.
Any idea why this is? I am thinking it is perhaps because the angular momentum from planets spinning on their axis has some effect on their orbit in the x plane? Or perhaps the effect of dark matter?
Here is the bit of the code that does the 'simulating'.
for nk = 2:length(LY)
t = 0;
dt = LY(nk)/num_it;
G = 6.67e-11;
t_finish = LY(nk); %One orbital period for selected planet
N_t = round(t_finish/dt);
N = length(p); %find number of objects in simulation
%view in center of mass frame
v = v - mean((m*[1 1 1]).*v)/mean(m);
%find accelleration
a = a_v(p, m, G, sft);
%find starting energy
[KE,PE] = E(v,p,G,m);
%Main Simulation
for n = 1:N_t
%'kick drift kick' second order technique is used here. This teqnique is
%used as it preserves energy fairly efficiently. Source: https://en.wikipedia.org/wiki/Leapfrog_integration
%first 1/2 kick
v = v + a*dt/2;
%drift
p = p + v*dt;
%new accellerations
a = a_v(p,m,G,sft);
%second 1/2 kick
v = v + a*dt/2;
%new time
t = t + dt;
end
psave(nk,:) = p(nk,:);
vsave(nk,:) = v(nk,:);
end

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