4-CAIVS-user-guide/4.2-User-interfaces.md

@@ -273,7 +273,7 @@ given either in form of a set {} of possible values or a numeric range.
 -   `05` (`_CC.comp[4]`, `_CC.species_min`,`_CC.species_max`)
 
     -   `_CC.comp[4]` ({0,1}): selects the logarithm of species number
-        densities, $\log n_\ms$, for output if set to 1. Species
+        densities, $\log n_\mathrm{s}$, for output if set to 1. Species
         numbered `_CC.species_min` to `_CC.species_max` are considered.
 
     -   `_CC.species_min` ($\ge 1$): lower species index
@@ -283,8 +283,8 @@ given either in form of a set {} of possible values or a numeric range.
 
 -   `06` (`_CC.comp[5]`)
 
-    -   `_CC.comp[5]` ({0,1}): selects tracer variables, $C_\mc$, for
-        output if set to 1. Selection of individual tracers is not
+    -   `_CC.comp[5]` ({0,1}): selects tracer variables, $C_\mathrm{c}$,
+        for output if set to 1. Selection of individual tracers is not
         possible.
 
 -   `07` (`_CC.comp[6]`)
@@ -305,7 +305,7 @@ given either in form of a set {} of possible values or a numeric range.
 -   `10` (`_CC.comp[9]`)
 
     -   `_CC.comp[9]` ({0,1}): selects testfields fluctuations,
-        $\mathbf{b}_\mt$, for output if set to 1.
+        $\mathbf{b}_\mathrm{t}$, for output if set to 1.
 
 -   `11` (`_CC.comp[10]`)
 
@@ -360,7 +360,7 @@ spatial coordinates, etc.) as well as holds data arrays for the
 following physical variables:
 
   `g->`                   variable
-  ----------------------- -----------------------------------------------------------------------------
+  ----------------------- ----------------------------------------------------------------------
   `rho[iz][iy][ix]`       mass density $\varrho$
   `mx[iz][iy][ix]`        $x$-momentum density $m_x$
   `my[iz][iy][ix]`        $y$-momentum density $m_y$
@@ -370,11 +370,11 @@ following physical variables:
   `by[iz][iy][ix]`        magnetic field component $B_y$ (if MHD)
   `bz[iz][iy][ix]`        magnetic field component $B_z$ (if MHD)
   `phi[iz][iy][ix]`       gravitational potential $\Phi$ (if selfgravity)
-  `nX[is][iz][iy][ix]`    species number densities $n_\mathrm{s}$ (if species)
-  `C[ic][iz][iy][ix]`     tracer variables $C_\mathrm{c}$ (if tracer)
-  `tfx[it][iz][iy][ix]`   $x$-component ${b_x}_\mathrm{t}$ of testfields fluctuations (if testfields)
-  `tfy[it][iz][iy][ix]`   $y$-component ${b_y}_\mathrm{t}$ of testfields fluctuations (if testfields)
-  `tfz[it][iz][iy][ix]`   $z$-component ${b_z}_\mathrm{t}$ of testfields fluctuations (if testfields)
+  `nX[is][iz][iy][ix]`    species number densities $n_{s}$ (if species)
+  `C[ic][iz][iy][ix]`     tracer variables $C_{c}$ (if tracer)
+  `tfx[it][iz][iy][ix]`   $x$-component ${b_x}_{t}$ of testfields fluctuations (if testfields)
+  `tfy[it][iz][iy][ix]`   $y$-component ${b_y}_{t}$ of testfields fluctuations (if testfields)
+  `tfz[it][iz][iy][ix]`   $z$-component ${b_z}_{t}$ of testfields fluctuations (if testfields)
   `p[iz][iy][ix]`         thermal pressure $p$
   `T[iz][iy][ix]`         temperature $T$
   `et[iz][iy][ix]`        thermal energy density $\epsilon$ (if dual energy mode)