The following data files have the configurations of two polymers of length 19 (monomers 20)
C(Nc,Np,Rend12^2) with mutual contacts Nc, Np, and Rend12^2 (square of end to end distance between the two polymers).

The boxendf_51.dat to boxendf_59.dat files are having all the configurations of the two polymer system within the box shape
of side 10 lattice units (area 100 sq. units). In simulation one end of the polymer 1 is fixed at 50 and polymer 2 
is anchored at x = 51,52,...,59 for each simulation (each data files).

To count the configurations of two polymers within an isosceles triangle with an area of 
100 square units, the triangle has a length of 20 and a height of 10. Polymer 1 is fixed at one end (position 50), 
while polymer 2 is anchored at positions ranging from 52 to 68 (triendf_52.dat, triendf_53.dat,...,triendf_68.dat). 
Due to the triangle's confinement, polymer 1 cannot grow for polymer 2's closest approach (at position 51). 
Therefore, we begin anchoring polymer 2 from position 52.
Additonaly the data files boxendf_59.dat and triendf_68.dat which posses the data when the two polymers 
are anchored at opposite vertexes contain an extra column of data (column 3) as square of end to end distances (Rend1^2) 
of polymer 1 which are not used in the study.

Lastly, the decision to use starting position of x=50 for the polymer (and consequently, the file namings) is purely 
coincidental and does not hold any additional significance.

Thanking You,

Dibyajyoti Mohanta
Center of Environmental and Climate Science,
Lund University,
Sweden

Contact: dibyajyoti.mohanta@cec.lu.se, dibyabnp41@gmail.com
