diff --git a/doc/sphinx/inputNamelists/physNamelist.rst b/doc/sphinx/inputNamelists/physNamelist.rst index d6b3b993..7275ff4e 100644 --- a/doc/sphinx/inputNamelists/physNamelist.rst +++ b/doc/sphinx/inputNamelists/physNamelist.rst @@ -178,11 +178,11 @@ Phase field * **tmelt** (default :f:var:`tmelt=0.0 `) is a real. This is the dimensionless melting temperature. -* **epsPhase** (default :f:var:`epsPhase=0.01 `) is a real. This is the dimensionless interface thickness between the solid and the liquid phase (sometimes known as the Cahn number). +* **epsPhase** (default :f:var:`epsPhase=0.01 `) is a real. This is the dimensionless interface thickness between the solid and the liquid phase (sometimes known as the Cahn number). -* **phaseDiffFac** (default :f:var:`phaseDiffFac=1.0 `) is a real. This is a coefficient that goes in front of the diffusion term in the phase field equation. +* **phaseDiffFac** (default :f:var:`phaseDiffFac=1.0 `) is a real. This is a coefficient that goes in front of the diffusion term in the phase field equation. -* **penaltyFac** (default :f:var:`penaltyFac=1.0 `) is a real. This is coefficient used for the penalisation of the velocity field in the solid phase. The smaller the coefficient, the stronger the penalisation. Since this is a nonlinear term, it is handled explicitly and the time step size should be decreased with the square of :f:var:`penaltyFac`. +* **penaltyFac** (default :f:var:`penaltyFac=1.0 `) is a real. This is coefficient used for the penalisation of the velocity field in the solid phase. The smaller the coefficient, the stronger the penalisation. Since this is a nonlinear term, it is handled explicitly and the time step size should be decreased with the square of :f:var:`penaltyfac`. Transport properties