Index: trunk/psphot/src/models/pmModel_QGAUSS.c
===================================================================
--- trunk/psphot/src/models/pmModel_QGAUSS.c	(revision 8882)
+++ trunk/psphot/src/models/pmModel_QGAUSS.c	(revision 9529)
@@ -33,9 +33,9 @@
 
     psF32 r  = 1.0 / (1 + PAR[PM_PAR_7]*z + pow(z, QG_S1));
-    psF32 f  = PAR[PM_PAR_FLUX]*r + PAR[PM_PAR_SKY];
+    psF32 f  = PAR[PM_PAR_I0]*r + PAR[PM_PAR_SKY];
 
     if (deriv != NULL) {
         // note difference from a pure gaussian: q = params->data.F32[1]*r
-        psF32 t = PAR[PM_PAR_FLUX]*r*r;
+        psF32 t = PAR[PM_PAR_I0]*r*r;
 	psF32 q = t*(PAR[PM_PAR_7] + QG_S1*pow(z, dQG_S1));
 
@@ -125,5 +125,5 @@
     norm *= 0.01;
     
-    psF64 Flux = PAR[PM_PAR_FLUX] * Area * norm;
+    psF64 Flux = PAR[PM_PAR_I0] * Area * norm;
 
     return(Flux);
@@ -138,11 +138,11 @@
 
     if (flux <= 0) return (1.0);
-    if (PAR[PM_PAR_FLUX] <= 0) return (1.0);
-    if (flux >= PAR[PM_PAR_FLUX]) return (1.0);
+    if (PAR[PM_PAR_I0] <= 0) return (1.0);
+    if (flux >= PAR[PM_PAR_I0]) return (1.0);
 
     // if Sx == Sy, sigma = Sx == Sy
     psF64 sigma = hypot (1.0 / PAR[PM_PAR_SXX], 1.0 / PAR[PM_PAR_SYY]) / sqrt(2.0);
     psF64 dz = 1.0 / (2.0 * sigma*sigma);
-    psF64 limit = flux / PAR[PM_PAR_FLUX];
+    psF64 limit = flux / PAR[PM_PAR_I0];
 
     // we can do this much better with intelligent choices here
@@ -190,6 +190,6 @@
     status = true;
     status &= (dP < 0.5);
-    status &= (PAR[PM_PAR_FLUX] > 0);
-    status &= ((dPAR[PM_PAR_FLUX]/PAR[PM_PAR_FLUX]) < 0.5);
+    status &= (PAR[PM_PAR_I0] > 0);
+    status &= ((dPAR[PM_PAR_I0]/PAR[PM_PAR_I0]) < 0.5);
 
     if (status) return true;
