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Subsections
NAMD provides spherical harmonic boundary conditions. These
boundary conditions can consist of a single potential or a
combination of two potentials as described in the NAMD Programmer's Guide.
The following parameters are used to define these boundary conditions.
- sphericalBC use spherical boundary conditions?
Acceptable Values: on or off
Default Value: off
Description: Specifies whether or not spherical boundary conditions
are to be applied to the system. If
set to on, then sphericalBCCenter, sphericalBCr1 and sphericalBCk1
must be defined, and sphericalBCexp1, sphericalBCr2,
sphericalBCk2, and sphericalBCexp2 can optionally be
defined.
- sphericalBCCenter center of sphere (Å)
Acceptable Values: position
Description: Location around which sphere is centered.
- sphericalBCr1 radius for first boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the first potential of the boundary conditions takes
effect. This distance is a radius from the center.
- sphericalBCk1 force constant for first potential
Acceptable Values: non-zero decimal
Description: Force constant for the first harmonic potential. A positive
value will push atoms toward the center, and a negative
value will pull atoms away from the center.
- sphericalBCexp1 exponent for first potential
Acceptable Values: positive, even integer
Default Value: 2
Description: Exponent for first boundary potential. The only likely values to
use are 2 and 4.
- sphericalBCr2 radius for second boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the second potential of the boundary conditions takes
effect. This distance is a radius from the center.
If this parameter is defined, then spericalBCk2 must also
be defined.
- sphericalBCk2 force constant for second potential
Acceptable Values: non-zero decimal
Description: Force constant for the second harmonic potential. A positive
value will push atoms toward the center, and a negative
value will pull atoms away from the center.
- sphericalBCexp2 exponent for second potential
Acceptable Values: positive, even integer
Default Value: 2
Description: Exponent for second boundary potential. The only likely values to
use are 2 and 4.
NAMD provides cylindrical harmonic boundary conditions. These
boundary conditions can consist of a single potential or a
combination of two potentials as described in the NAMD Programmer's Guide.
The following parameters are used to define these boundary conditions.
- cylindricalBC use cylindrical boundary conditions?
Acceptable Values: on or off
Default Value: off
Description: Specifies whether or not cylindrical boundary conditions
are to be applied to the system. If
set to on, then cylindricalBCCenter, cylindricalBCr1, cylindricalBCl1 and cylindricalBCk1
must be defined, and cylindricalBCAxis, cylindricalBCexp1, cylindricalBCr2, cylindricalBCl2,
cylindricalBCk2, and cylindricalBCexp2 can optionally be
defined.
- cylindricalBCCenter center of cylinder (Å)
Acceptable Values: position
Description: Location around which cylinder is centered.
- cylindricalBCAxis axis of cylinder (Å)
Acceptable Values: x, y, or z
Description: Axis along which cylinder is aligned.
- cylindricalBCr1 radius for first boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the first potential of the boundary conditions takes
effect along the non-axis plane of the cylinder.
- cylindricalBCl1 distance along cylinder axis for first boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the first potential of the boundary conditions takes
effect along the cylinder axis.
- cylindricalBCk1 force constant for first potential
Acceptable Values: non-zero decimal
Description: Force constant for the first harmonic potential. A positive
value will push atoms toward the center, and a negative
value will pull atoms away from the center.
- cylindricalBCexp1 exponent for first potential
Acceptable Values: positive, even integer
Default Value: 2
Description: Exponent for first boundary potential. The only likely values to
use are 2 and 4.
- cylindricalBCr2 radius for second boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the second potential of the boundary conditions takes
effect along the non-axis plane of the cylinder.
If this parameter is defined, then cylindricalBCl2 and spericalBCk2 must also
be defined.
- cylindricalBCl2 radius for second boundary condition (Å)
Acceptable Values: positive decimal
Description: Distance at which the second potential of the boundary conditions takes
effect along the cylinder axis.
If this parameter is defined, then cylindricalBCr2 and spericalBCk2 must also
be defined.
- cylindricalBCk2 force constant for second potential
Acceptable Values: non-zero decimal
Description: Force constant for the second harmonic potential. A positive
value will push atoms toward the center, and a negative
value will pull atoms away from the center.
- cylindricalBCexp2 exponent for second potential
Acceptable Values: positive, even integer
Default Value: 2
Description: Exponent for second boundary potential. The only likely values to
use are 2 and 4.
NAMD provides periodic boundary conditions in 1, 2 or 3 dimensions.
The following parameters are used to define these boundary conditions.
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