.. index:: compute ke/atom/eff compute ke/atom/eff command =========================== Syntax """""" .. code-block:: LAMMPS compute ID group-ID ke/atom/eff * ID, group-ID are documented in :doc:`compute ` command * ke/atom/eff = style name of this compute command Examples """""""" .. code-block:: LAMMPS compute 1 all ke/atom/eff Description """"""""""" Define a computation that calculates the per-atom translational (nuclei and electrons) and radial kinetic energy (electron only) in a group. The particles are assumed to be nuclei and electrons modeled with the :doc:`electronic force field `. The kinetic energy for each nucleus is computed as :math:`\frac{1}{2} m v^2`, where *m* corresponds to the corresponding nuclear mass, and the kinetic energy for each electron is computed as :math:`\frac{1}{2} (m_e v^2 + \frac{3}{4} m_e s^2)`, where :math:`m_e` and *v* correspond to the mass and translational velocity of each electron, and *s* to its radial velocity, respectively. There is a subtle difference between the quantity calculated by this compute and the kinetic energy calculated by the *ke* or *etotal* keyword used in thermodynamic output, as specified by the :doc:`thermo_style ` command. For this compute, kinetic energy is "translational" plus electronic "radial" kinetic energy, calculated by the simple formula above. For thermodynamic output, the *ke* keyword infers kinetic energy from the temperature of the system with :math:`\frac{1}{2} k_B T` of energy for each (nuclear-only) degree of freedom in eFF. .. note:: The temperature in eFF should be monitored via the :doc:`compute temp/eff ` command, which can be printed with thermodynamic output by using the :doc:`thermo_modify ` command, as shown in the following example: .. code-block:: LAMMPS compute effTemp all temp/eff thermo_style custom step etotal pe ke temp press thermo_modify temp effTemp The value of the kinetic energy will be 0.0 for atoms (nuclei or electrons) not in the specified compute group. Output info """"""""""" This compute calculates a scalar quantity for each atom, which can be accessed by any command that uses per-atom computes as input. See the :doc:`Howto output ` page for an overview of LAMMPS output options. The per-atom vector values will be in energy :doc:`units `. Restrictions """""""""""" This compute is part of the EFF package. It is only enabled if LAMMPS was built with that package. See the :doc:`Build package ` page for more info. Related commands """""""""""""""" :doc:`dump custom ` Default """"""" none