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This section describes the various force fields implemented in MW.
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Each species type can interact through different potentials: interactomic potentials and intramolecular potentials. Each atom has a set of coordinates $`\mathbf{r}_i=(x_i, y_i, z_i)`$ and can have an electric charge, an electric dipole (characterized by an atomic polarizability when a polarizable force field is used) and an effective radius (characterized by an atomic deformability in the aspherical ion model).
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Each species type can interact through different potentials: interactomic potentials and intramolecular potentials. Each atom has a set of coordinates $`\mathbf{r}_i=(x_i, y_i, z_i)`$ and can have an electric charge, an electric dipole (characterized by an atomic polarizability when a polarizable force field is used) and an effective radius (characterized by an atomic deformability in the dipole aspherical ion model).
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Throughout this page, we write the distance between two particles $`i`$ and $`j`$
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