"help":"The style of thermostatting. 'langevin' specifies a white noise langevin equation to be attached to the cartesian representation of the momenta. 'svr' attaches a velocity rescaling thermostat to the cartesian representation of the momenta. Both 'pile_l' and 'pile_g' attaches a white noise langevin thermostat to the normal mode representation, with 'pile_l' attaching a local langevin thermostat to the centroid mode and 'pile_g' instead attaching a global velocity rescaling thermostat. 'gle' attaches a coloured noise langevin thermostat to the cartesian representation of the momenta, 'nm_gle' attaches a coloured noise langevin thermostat to the normal mode representation of the momenta and a langevin thermostat to the centroid and 'nm_gle_g' attaches a gle thermostat to the normal modes and a svr thermostat to the centroid."
})}
fields={"ethermo":(InputValue,{"dtype":float,
"default":0.0,
"help":"The initial value of the thermostat energy. Used when the simulation is restarted to guarantee continuity of the conserved quantity.",
"dimension":"energy"}),
"tau":(InputValue,{"dtype":float,
"default":0.0,
"help":"The friction coefficient for white noise thermostats.",
"dimension":"time"}),
"pile_scale":(InputValue,{"dtype":float,
"default":1.0,
"help":"Scaling for the PILE damping relative to the critical damping."}),