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-rw-r--r--src/detector.c18
1 files changed, 10 insertions, 8 deletions
diff --git a/src/detector.c b/src/detector.c
index cc5663af..2a4e3579 100644
--- a/src/detector.c
+++ b/src/detector.c
@@ -20,7 +20,7 @@
#include "utils.h"
#include "diffraction.h"
#include "detector.h"
-#include "parameters.tmp"
+#include "beam-parameters.h"
int atob(const char *a)
@@ -88,14 +88,14 @@ void record_image(struct image *image, int do_poisson)
double max_tt = 0.0;
/* How many photons are scattered per electron? */
- area = M_PI*pow(BEAM_RADIUS, 2.0);
- total_energy = FLUENCE * ph_lambda_to_en(image->lambda);
+ area = M_PI*pow(image->beam->beam_radius, 2.0);
+ total_energy = image->beam->fluence * ph_lambda_to_en(image->lambda);
energy_density = total_energy / area;
- ph_per_e = (FLUENCE/area) * pow(THOMSON_LENGTH, 2.0);
+ ph_per_e = (image->beam->fluence /area) * pow(THOMSON_LENGTH, 2.0);
STATUS("Fluence = %8.2e photons, "
"Energy density = %5.3f kJ/cm^2, "
"Total energy = %5.3f microJ\n",
- FLUENCE, energy_density/1e7, total_energy*1e6);
+ image->beam->fluence, energy_density/1e7, total_energy*1e6);
for ( x=0; x<image->width; x++ ) {
for ( y=0; y<image->height; y++ ) {
@@ -135,13 +135,15 @@ void record_image(struct image *image, int do_poisson)
sa = proj_area / (dsq + Lsq);
if ( do_poisson ) {
- counts = poisson_noise(intensity * ph_per_e * sa * DQE);
+ counts = poisson_noise(intensity * ph_per_e
+ * sa * image->beam->dqe );
} else {
- cf = intensity * ph_per_e * sa * DQE;
+ cf = intensity * ph_per_e * sa * image->beam->dqe;
counts = cf;
}
- image->data[x + image->width*y] = counts * DETECTOR_GAIN;
+ image->data[x + image->width*y] = counts
+ * image->beam->adu_per_photon;
if ( isinf(image->data[x+image->width*y]) ) {
ERROR("Processed infinity at %i,%i\n", x, y);
}