forked from lijiext/lammps
259 lines
11 KiB
Plaintext
259 lines
11 KiB
Plaintext
"LAMMPS WWW Site"_lws - "LAMMPS Documentation"_ld - "LAMMPS Commands"_lc :c
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:link(lws,http://lammps.sandia.gov)
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:link(ld,Manual.html)
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:link(lc,Section_commands.html#comm)
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:line
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fix npt command :h3
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[Syntax:]
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fix ID group-ID npt Tstart Tstop Tdamp p-style args keyword value ... :pre
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ID, group-ID are documented in "fix"_fix.html command :ulb,l
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npt = style name of this fix command :l
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Tstart,Tstop = desired temperature at start/end of run :l
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Tdamp = temperature damping parameter (time units) :l
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p-style = {xyz} or {xy} or {yz} or {xz} or {aniso} :l
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{xyz} args = Pstart Pstop Pdamp
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Pstart,Pstop = desired pressure at start/end of run (pressure units)
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Pdamp = pressure damping parameter (time units)
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{xy} or {yz} or {xz} or {aniso} args = Px_start Px_stop Py_start Py_stop Pz_start Pz_stop Pdamp
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Px_start,Px_stop,... = desired pressure in x,y,z at start/end of run (pressure units)
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Pdamp = pressure damping parameter (time units) :pre
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zero or more keyword/value pairs may be appended :l
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keyword = {drag} or {dilate} :l
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{drag} value = drag factor added to barostat/thermostat (0.0 = no drag)
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{dilate} value = {all} or {partial} :pre
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:ule
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[Examples:]
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fix 1 all npt 300.0 300.0 100.0 xyz 0.0 0.0 1000.0
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fix 2 all npt 300.0 300.0 100.0 xz 5.0 5.0 NULL NULL 5.0 5.0 1000.0
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fix 2 all npt 300.0 300.0 100.0 xz 5.0 5.0 NULL NULL 5.0 5.0 1000.0 drag 0.2
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fix 2 water npt 300.0 300.0 100.0 aniso 0.0 0.0 0.0 0.0 NULL NULL 1000.0 dilate partial :pre
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[Description:]
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Perform constant NPT integration to update positions and velocities
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each timestep for atoms in the group using a Nose/Hoover temperature
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thermostat "(Hoover1)"_#Hoover1 and Nose/Hoover pressure barostat
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"(Hoover2)"_#Hoover2, implemented as described in
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"(Melchionna)"_#Melchionna. P is pressure; T is temperature. This
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creates a system trajectory consistent with the isothermal-isobaric
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ensemble.
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The thermostat is applied to only the translational degrees of freedom
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for the particles. The translational degrees of freedom can also have
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a bias velocity removed from them before thermostatting takes place;
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see the description below.
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The desired temperature at each timestep is a ramped value during the
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run from {Tstart} to {Tstop}. The {Tdamp} parameter is specified in
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time units and determines how rapidly the temperature is relaxed. For
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example, a value of 100.0 means to relax the temperature in a timespan
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of (roughly) 100 time units (tau or fmsec or psec - see the
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"units"_units.html command).
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The atoms in the fix group are the only ones whose velocities and
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positions are updated by the velocity/position update portion of the
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NPT integration.
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Regardless of what atoms are in the fix group, a global pressure is
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computed for all atoms. Similarly, when the size of the simulation
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box is changed, all atoms are re-scaled to new positions, unless the
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keyword {dilate} is specified with a value of {partial}, in which case
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only the atoms in the fix group are re-scaled. The latter can be
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useful for leaving the coordinates of atoms in a solid substrate
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unchanged and controlling the pressure of a surrounding fluid.
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IMPORTANT NOTE: Unlike the "fix
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temp/berendsen"_fix_temp_berendsen.html command which performs
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thermostatting but NO time integration, this fix performs
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thermostatting/barostatting AND time integration. Thus you should not
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use any other time integration fix, such as "fix nve"_fix_nve.html on
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atoms to which this fix is applied. Likewise, this fix should not
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normally be used on atoms that also have their temperature controlled
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by another fix - e.g. by "fix langevin"_fix_nvt.html or "fix
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temp/rescale"_fix_temp_rescale.html commands.
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See "this howto section"_Section_howto.html#4_16 of the manual for a
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discussion of different ways to compute temperature and perform
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thermostatting and barostatting.
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:line
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The pressure can be controlled in one of several styles, as specified
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by the {p-style} argument. In each case, the desired pressure at each
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timestep is a ramped value during the run from the starting value to
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the end value.
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Style {xyz} means couple all dimensions together when pressure is
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computed (isotropic pressure), and dilate/contract the dimensions
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together.
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Styles {xy} or {yz} or {xz} means that the 2 specified dimensions are
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coupled together, both for pressure computation and for
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dilation/contraction. The 3rd dimension dilates/contracts
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independently, using its pressure component as the driving force.
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These styles cannot be used for a 2d simulation.
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For style {aniso}, all dimensions dilate/contract independently using
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their individual pressure components as the driving forces.
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For any of the styles except {xyz}, any of the independent pressure
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components (e.g. z in {xy}, or any dimension in {aniso}) can have
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their target pressures (both start and stop values) specified as NULL.
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This means that no pressure control is applied to that dimension so
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that the box dimension remains unchanged. For a 2d simulation the z
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pressure components must be specified as NULL when using style
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{aniso}.
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For styles {xy} and {yz} and {xz}, the starting and stopping pressures
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must be the same for the two coupled dimensions and cannot be
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specified as NULL.
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In some cases (e.g. for solids) the pressure (volume) and/or
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temperature of the system can oscillate undesirably when a Nose/Hoover
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barostat and thermostat is applied. The optional {drag} keyword will
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damp these oscillations, although it alters the Nose/Hoover equations.
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A value of 0.0 (no drag) leaves the Nose/Hoover formalism unchanged.
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A non-zero value adds a drag term; the larger the value specified, the
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greater the damping effect. Performing a short run and monitoring the
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pressure and temperature is the best way to determine if the drag term
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is working. Typically a value between 0.2 to 2.0 is sufficient to
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damp oscillations after a few periods.
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For all pressure styles, the simulation box stays rectangular in
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shape. Parinello-Rahman boundary condition for tilted boxes
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(triclinic symmetry) are supported by other LAMMPS commands (see "this
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section"_Section_howto.html#4_12 of the manual), but not yet by this
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command.
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For all styles, the {Pdamp} parameter operates like the {Tdamp}
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parameter, determining the time scale on which pressure is relaxed.
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For example, a value of 1000.0 means to relax the pressure in a
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timespan of (roughly) 1000 time units (tau or fmsec or psec - see the
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"units"_units.html command).
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:line
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This fix computes a temperature and pressure each timestep. To do
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this, the fix creates its own computes of style "temp" and "pressure",
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as if these commands had been issued:
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compute fix-ID_temp group-ID temp
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compute fix-ID_press group-ID pressure fix-ID_temp :pre
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See the "compute temp"_compute_temp.html and "compute
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pressure"_compute_pressure.html commands for details. Note that the
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IDs of the new computes are the fix-ID + underscore + "temp" or fix_ID
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+ underscore + "press", and the group for the new computes is the same
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as the fix group.
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Note that these are NOT the computes used by thermodynamic output (see
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the "thermo_style"_thermo_style.html command) with ID = {thermo_temp}
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and {thermo_press}. This means you can change the attributes of this
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fix's temperature or pressure via the
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"compute_modify"_compute_modify.html command or print this temperature
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or pressure during thermodynamic output via the "thermo_style
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custom"_thermo_style.html command using the appropriate compute-ID.
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It also means that changing attributes of {thermo_temp} or
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{thermo_press} will have no effect on this fix.
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Like other fixes that perform thermostatting, this fix can be used
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with "compute commands"_compute.html that calculate a temperature
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after removing a "bias" from the atom velocities. E.g. removing the
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center-of-mass velocity from a group of atoms or only calculating
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temperature on the x-component of velocity or only calculating
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temperature for atoms in a geometric region. This is not done by
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default, but only if the "fix_modify"_fix_modify.html command is used
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to assign a temperature compute to this fix that includes such a bias
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term. See the doc pages for individual "compute
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commands"_compute.html to determine which ones include a bias. In
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this case, the thermostat works in the following manner: the current
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temperature is calculated taking the bias into account, bias is
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removed from each atom, thermostatting is performed on the remaining
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thermal degrees of freedom, and the bias is added back in.
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[Restart, fix_modify, output, run start/stop, minimize info:]
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This fix writes the state of the Nose/Hoover thermostat and barostat
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to "binary restart files"_restart.html. See the
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"read_restart"_read_restart.html command for info on how to re-specify
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a fix in an input script that reads a restart file, so that the
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operation of the fix continues in an uninterrupted fashion.
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The "fix_modify"_fix_modify.html {temp} and {press} options are
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supported by this fix. You can use them to assign a
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"compute"_compute.html you have defined to this fix which will be used
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in its thermostatting or barostatting procedure, as described above.
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If you do this, note that the kinetic energy derived from the compute
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temperature should be consistent with the virial term computed using
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all atoms for the pressure. LAMMPS will warn you if you choose to
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compute temperature on a subset of atoms.
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IMPORTANT NOTE: If both the {temp} and {press} keywords are used in a
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single thermo_modify command (or in two separate commands), then the
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order in which the keywords are specified is important. Note that a
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"pressure compute"_compute_pressure.html defines its own temperature
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compute as an argument when it is specified. The {temp} keyword will
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override this (for the pressure compute being used by fix npt), but
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only if the {temp} keyword comes after the {press} keyword. If the
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{temp} keyword comes before the {press} keyword, then the new pressure
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compute specified by the {press} keyword will be unaffected by the
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{temp} setting.
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The "fix_modify"_fix_modify.html {energy} option is supported by this
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fix to add the energy change induced by Nose/Hoover thermostatting and
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barostatting to the system's potential energy as part of
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"thermodynamic output"_thermo_style.html.
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The potential energy change due to this fix is stored as a scalar
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quantity, which can be accessed by various "output
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commands"_Section_howto.html#4_15. The scalar value calculated by
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this fix is "extensive", meaning it scales with the number of atoms in
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the simulation.
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This fix can ramp its target temperature and pressure over multiple
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runs, using the {start} and {stop} keywords of the "run"_run.html
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command. See the "run"_run.html command for details of how to do
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this.
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This fix is not invoked during "energy minimization"_minimize.html.
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[Restrictions:]
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Any dimension being adjusted by this fix must be periodic. A
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dimension whose target pressures are specified as NULL can be
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non-periodic or periodic.
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The final Tstop cannot be 0.0 since it would make the target T = 0.0
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at some timestep during the simulation which is not allowed in
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the Nose/Hoover formulation.
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[Related commands:]
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"fix nve"_fix_nve.html, "fix nvt"_fix_nvt.html, "fix nph"_fix_nph.html,
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"fix_modify"_fix_modify.html
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[Default:]
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The keyword defaults are drag = 0.0 and dilate = all.
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:line
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:link(Hoover1)
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[(Hoover1)] Hoover, Phys Rev A, 31, 1695 (1985).
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:link(Hoover2)
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[(Hoover2)] Hoover, Phys Rev A, 34, 2499 (1986).
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:link(Melchionna)
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[(Melchionna)] Melchionna, Ciccotti, Holian, Molecular Physics, 78,
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533-44 (1993).
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