displace_atoms command¶
Syntax¶
displace_atoms group-ID style args keyword value ...
group-ID = ID of group of atoms to displace
style = move or ramp or random or rotate
move args = delx dely delz delx,dely,delz = distance to displace in each dimension (distance units) any of delx,dely,delz can be a variable (see below) ramp args = ddim dlo dhi dim clo chi ddim = x or y or z dlo,dhi = displacement distance between dlo and dhi (distance units) dim = x or y or z clo,chi = lower and upper bound of domain to displace (distance units) random args = dx dy dz seed dx,dy,dz = random displacement magnitude in each dimension (distance units) seed = random # seed (positive integer) rotate args = Px Py Pz Rx Ry Rz theta Px,Py,Pz = origin point of axis of rotation (distance units) Rx,Ry,Rz = axis of rotation vector theta = angle of rotation (degrees)
zero or more keyword/value pairs may be appended
keyword = units value = box or lattice
Examples¶
displace_atoms top move 0 -5 0 units box
displace_atoms flow ramp x 0.0 5.0 y 2.0 20.5
Description¶
Displace a group of atoms. This can be used to move atoms a large distance before beginning a simulation or to randomize atoms initially on a lattice. For example, in a shear simulation, an initial strain can be imposed on the system. Or two groups of atoms can be brought into closer proximity.
The move style displaces the group of atoms by the specified 3d displacement vector. Any of the 3 quantities defining the vector components can be specified as an equal-style or atom-style variable. If the value is a variable, it should be specified as v_name, where name is the variable name. In this case, the variable will be evaluated, and its value(s) used for the displacement(s). The scale factor implied by the units keyword will also be applied to the variable result.
Equal-style variables can specify formulas with various mathematical functions, and include thermo_style command keywords for the simulation box parameters and timestep and elapsed time. Atom-style variables can specify the same formulas as equal-style variables but can also include per-atom values, such as atom coordinates or per-atom values read from a file. Note that if the variable references other compute or fix commands, those values must be up-to-date for the current timestep. See the “Variable Accuracy” section of the variable doc page for more details.
The ramp style displaces atoms a variable amount in one dimension depending on the atom’s coordinate in a (possibly) different dimension. For example, the second example command displaces atoms in the x-direction an amount between 0.0 and 5.0 distance units. Each atom’s displacement depends on the fractional distance its y coordinate is between 2.0 and 20.5. Atoms with y-coordinates outside those bounds will be moved the minimum (0.0) or maximum (5.0) amount.
The random style independently moves each atom in the group by a random displacement, uniformly sampled from a value between -dx and +dx in the x dimension, and similarly for y and z. Random numbers are used in such a way that the displacement of a particular atom is the same, regardless of how many processors are being used.
The rotate style rotates each atom in the group by the angle theta around a rotation axis R = (Rx,Ry,Rz) that goes through a point P = (Px,Py,Pz). The direction of rotation for the atoms around the rotation axis is consistent with the right-hand rule: if your right-hand thumb points along R, then your fingers wrap around the axis in the direction of positive theta.
If the defined atom_style assigns an orientation to each atom (atom styles ellipsoid, line, tri, body), then that property is also updated appropriately to correspond to the atom’s rotation.
Distance units for displacements and the origin point of the rotate style are determined by the setting of box or lattice for the units keyword. Box means distance units as defined by the units command - e.g. Angstroms for real units. Lattice means distance units are in lattice spacings. The lattice command must have been previously used to define the lattice spacing.
Note
Care should be taken not to move atoms on top of other atoms. After the move, atoms are remapped into the periodic simulation box if needed, and any shrink-wrap boundary conditions (see the boundary command) are enforced which may change the box size. Other than this effect, this command does not change the size or shape of the simulation box. See the change_box command if that effect is desired.
Note
Atoms can be moved arbitrarily long distances by this command. If the simulation box is non-periodic and shrink-wrapped (see the boundary command), this can change its size or shape. This is not a problem, except that the mapping of processors to the simulation box is not changed by this command from its initial 3d configuration; see the processors command. Thus, if the box size/shape changes dramatically, the mapping of processors to the simulation box may not end up as optimal as the initial mapping attempted to be.
Restrictions¶
For a 2d simulation, only rotations around the a vector parallel to the z-axis are allowed.
Default¶
The option defaults are units = lattice.