title high-ionization x-ray ionized cloud from Lexington 2000 stop column density 16 print lines column linear normalise to "H 1" 1216 print line faint -1 hden 5 iterate phi(h) 16.477 range 7.353 to 735.3 interpolate (-8 -3) continue (-6 1.) continue (-2 14.5) continue (0.4771 12.7) continue (0.8663 10.6) continue (3.8663 7.6) continue (6 1) continue (9 -3) element abundance helium -1 element abundance carbon -3.432 element abundance nitrogen -3.959 element abundance oxygen -3.097 element abundance neon -3.959 element abundance magnesium -4.4318 element abundance silicon -4.456 element abundance sulphur -4.7959 element abundance argon -5.4318 element abundance iron -4.398 element lithium off element beryllium off element boron off element fluorine off element sodium off element aluminium off element phosphrous off element chlorine off element potasium off element calcium off element scandium off element titanium off element vanadium off element chromium off element manganese off element cobalt off element nickel off element copper off element zinc off // // >>chng 08 apr 20, remove "no induced" command, include UTA monitor temperature hydrogen 2 1.64e6 K // save overview "agn_lex00_u1.ovr" save performance "agn_lex00_u1.per" save transmitted continuum "agn_lex00_u1.trn" units keV save monitors "agn_lex00_u1.asr" c c agn_lex00_u1.in This is one of the "warm absorber" simulations presented at the Lexington 2000 meeting on nebulae. Pequignot et al. summarized in 2001ASPC..247..533P. It is necessary to also include the command no induced processes to obtain the results presented there. This disables UTA ionization, a process that was not included in the calculations presented in the paper.