| | |
| | | |
| | | # Pressure calculations |
| | | # (pswitch=1: calc. p*dV energy contribution) |
| | | pswitch = 0 |
| | | pswitch = 1 |
| | | # pressure difference: p_inside - p_outside (in units kT/l_min^3): |
| | | pressure=0.0 |
| | | pressure=-10.0 |
| | | |
| | | #Constant volume constraint (0 disable constant volume, 1 enable wiht additional vertex move, 2 enable with epsvol) |
| | | constvolswitch=1 |
| | | constvolswitch=0 |
| | | constvolprecision=1e-14 |
| | | |
| | | #Constant area constraint (0 disable constant area, 2 enable constant area with epsarea) |
| | | constareaswitch=2 |
| | | |
| | | ####### Polymer (brush) definitions ########### |
| | | # npoly is a number of polymers attached to npoly distinct vertices on vesicle |
| | | npoly=5 |
| | | npoly=3 |
| | | # nmono is a number of monomers in each polymer |
| | | nmono=10 |
| | | # Spring constant between monomers of the polymer |
| | |
| | | |
| | | ####### Filament (inside the vesicle) definitions ########### |
| | | # nfil is a number of filaments inside the vesicle |
| | | nfil=0 |
| | | nfil=2 |
| | | # nfono is a number of monomers in each filament |
| | | nfono=300 |
| | | # Persistence lenght of the filaments (in units l_min) |
| | |
| | | ####### Nucleus (inside the vesicle) ########### |
| | | # Radius of an impenetrable hard sphere inside the vesicle |
| | | R_nucleus=0 |
| | | |
| | | R_nucleusX=2.0 |
| | | R_nucleusY=6.0 |
| | | R_nucleusZ=2.0 |
| | | ####### Cell definitions ############ |
| | | nxmax=60 |
| | | nymax=60 |