Inquiries on the second phase morphology(size or shape) through MD simulation

Currently I’m puzzled over a problem related with precipitates or the second phase and wanna seek your favor from MD simulations.

Here is the problem: it is well known that when the doping level of certain content exceeds the solubility limit in the matrix material,it will be precipitaed as the second phase and
. The scattering effects are largely dependent on the morphology(size or shape) of the second phase.
So can the morphology such as average size,size distribution or shape be figurred out through computational simulations?

Currently I'm puzzled over a problem related with precipitates or the second
phase and wanna seek your favor from MD simulations.

Here is the problem: it is well known that when the doping level of certain
content exceeds the solubility limit in the matrix material,it will be
precipitaed as the second phase and
serve as scattering centers for charge carriers and phonons. The scattering
effects are largely dependent on the morphology(size or shape) of the second
phase.
So can the morphology such as average size,size distribution or shape be
figurred out through computational simulations?

first of all, this is not a question about LAMMPS but about MD in
general, thus this is not the right forum for it.

second, your question is far too general and with a code like LAMMPS
that supports a vast variety of models at different length scales and
level of detail, it is impossible to give a meaningful answer.

finally, if you have not done so, please search the literature and MD
text books about how to model phase transitions and how far this is
possible. if you have done, please check again and more carefully,
because the published is the source where people try to provide
answers to such general questions and develop models and simulation
strategies for it.

axel.