Interaction function and force fields

To accommodate the potential functions used in some popular force fields (see Interaction function and force fields), GROMACS offers a choice of functions, both for non-bonded interaction and for dihedral interactions. They are described in the appropriate subsections.

The potential functions can be subdivided into three parts

1. Non-bonded: Lennard-Jones or Buckingham, and Coulomb or modified Coulomb. The non-bonded interactions are computed on the basis of a neighbor list (a list of non-bonded atoms within a certain radius), in which exclusions are already removed.

2. Bonded: covalent bond-stretching, angle-bending, improper dihedrals, and proper dihedrals. These are computed on the basis of fixed lists.

3. Restraints: position restraints, angle restraints, distance restraints, orientation restraints and dihedral restraints, all based on fixed lists.

4. Applied Forces: externally applied forces, see chapter Special Topics.

• Non-bonded interactions
  • The Lennard-Jones interaction
  • Buckingham potential
  • Coulomb interaction
  • Coulomb interaction with reaction field
  • Modified non-bonded interactions
  • Modified short-range interactions with Ewald summation
• Bonded interactions
  • Bond stretching
  • Morse potential bond stretching
  • Cubic bond stretching potential
  • FENE bond stretching potential
  • Harmonic angle potential
  • Cosine based angle potential
  • Restricted bending potential
  • Urey-Bradley potential
  • Linear Angle potential
  • Bond-Bond cross term
  • Bond-Angle cross term
  • Quartic angle potential
  • Improper dihedrals
  • Proper dihedrals
  • Bonded pair and 1-4 interactions
  • Tabulated bonded interaction functions
• Restraints
  • Position restraints
  • Flat-bottomed position restraints
  • Angle restraints
  • Dihedral restraints
  • Distance restraints
  • Orientation restraints
• Polarization
  • Simple polarization
  • Anharmonic polarization
  • Water polarization
  • Thole polarization
• Free energy interactions
  • Harmonic potentials
  • GROMOS-96 bonds and angles
  • Proper dihedrals
  • Tabulated bonded interactions
  • Coulomb interaction
  • Coulomb interaction with reaction field
  • Lennard-Jones interaction
  • Kinetic Energy
  • Constraints
  • Soft-core interactions: Beutler et al.
  • Soft-core interactions: Gapsys et al.
• Methods
  • Exclusions and 1-4 Interactions.
  • Charge Groups
  • Treatment of Cut-offs in the group scheme
• Virtual interaction sites
  • On top of an atom
  • As a linear combination of two atoms (Fig. %s 2)
  • On the line through two atoms, with a fixed distance (Fig. %s 2fd)
  • As a linear combination of three atoms (Fig. %s 3)
  • In the plane of three atoms, with a fixed distance (Fig. %s 3fd)
  • In the plane of three atoms, with a fixed angle and distance (Fig. %s 3fad)
  • As a non-linear combination of three atoms, out of plane (Fig. %s 3out)
  • From four atoms, with a fixed distance, see separate Fig. %s
  • A linear combination of \(N\) atoms with relative weights \(a_i\)
• Long Range Electrostatics
  • Ewald summation
  • PME
  • P3M-AD
  • Optimizing Fourier transforms and PME calculations
• Long Range Van der Waals interactions
  • Dispersion correction
  • Lennard-Jones PME
• Force field
  • All-hydrogen force field
  • GROMOS-96
  • OPLS/AA
  • AMBER
  • CHARMM
  • Coarse-grained force fields
  • MARTINI
  • PLUM