Initialisation of Radiative Generic Condensable Aerosols
We can activate the scheme by putting aerogeneric = # of aerosols in callphys.def. This is the only needed thing for activating the radiative effects. They must be tracer in modern tracer.def
Commented out the abort if we use more than 4 aerosols
Added reading of optprop files for Radiative Generic Condensable Aerosols
We use the same file for IR and VI channel. For now, only MnS, Cr,Fe and Mg2SiO4 can be read. If you want to add another specie, check the code, it is explained how to quickly do that (right above the Initializations)
Added radii calculation for Radiative Generic Condensable aerosols
Changed the hardcoded size of the totalemit array
The hardcoded size is now 1900 instead of 100 so we don't exceed the array size when working at high spectral resolution (very rare case)
Added opacity computation for Radiative Generic Condensable aerosols
We do this computation in the same fashion as what's performed on water and dust.
switch iniaerosol and initracer order, to prepare for the RGCS scheme
Needed to switch the order of initialization so we can use the RGCS scheme without the assumption that ice and vap tracer of the same specie are following each other in the traceur.def file