diff --git a/script/users/TUM/HAT_MultiXPS_2020.py b/script/users/TUM/HAT_MultiXPS_2020.py
index 2c81ca96..8230a9ae 100644
--- a/script/users/TUM/HAT_MultiXPS_2020.py
+++ b/script/users/TUM/HAT_MultiXPS_2020.py
@@ -2,49 +2,54 @@ import ch.psi.pshell.plot.RangeSelectionPlot.RangeSelection as RangeSelection
 
 ranges = []
 
-#Na 1s
-#rs = RangeSelection(18, 32)
-#rs.setVars([0.25, 0.05, 10, 1100.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
-
-#Cu 2p
-#rs = RangeSelection(158, 172)
-#rs.setVars([0.25, 0.05, 1, 1100.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
-
 # N 1s
-#rs = RangeSelection(143.0, 157.0)
-#rs.setVars([0.25, 0.05, 10, 550.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
+rs = RangeSelection(143.0, 157.0)
+rs.setVars([0.25, 0.05, 10, 550.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
 
-# Fermi edge for N 1s
-#rs = RangeSelection(540., 550.)
-#rs.setVars([0.25, 0.05, 3, 550.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
-
-# Cl 2p3/2
-#rs = RangeSelection(141.2, 155.2)
-#rs.setVars([0.25, 0.05, 10, 350.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
-
-# Fermi edge for Cl 2p3/2
-#rs = RangeSelection(340., 350.)
-#rs.setVars([0.25, 0.05, 3, 350.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
-
-# S 2p
-#rs = RangeSelection(138.5, 148.5)
-#rs.setVars([0.25, 0.05, 10, 310.]) #Time, Size, Iteration, photon energy
-#ranges.append(rs)
+#Cu 3s for N 1s
+rs = RangeSelection(418, 428)
+rs.setVars([0.25, 0.05, 1, 550.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
 
 # C 1s
 rs = RangeSelection(151.0, 165.0)
 rs.setVars([0.25, 0.05, 10, 435.]) #Time, Size, Iteration, photon energy
 ranges.append(rs)
 
-# Fermi edge for C 1s
-rs = RangeSelection(440.0, 450.0)
-rs.setVars([0.25, 0.05, 3, 435.]) #Time, Size, Iteration, photon energy
+#Cu 3s for C 1s
+rs = RangeSelection(303., 313.)
+rs.setVars([0.25, 0.05, 1, 435.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+# Cl 2p3/2
+rs = RangeSelection(141.0, 155.0)
+rs.setVars([0.25, 0.05, 10, 350.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+#Cu 3s for N 1s
+rs = RangeSelection(218, 228)
+rs.setVars([0.25, 0.05, 1, 350.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+# S 2p
+rs = RangeSelection(138.5, 148.5)
+rs.setVars([0.25, 0.05, 10, 310.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+#Cu 3s for N 1s
+rs = RangeSelection(178, 188)
+rs.setVars([0.25, 0.05, 1, 310.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+#Na 2s
+rs = RangeSelection(140.0, 155.0)
+rs.setVars([0.25, 0.05, 10, 215.]) #Time, Size, Iteration, photon energy
+ranges.append(rs)
+
+#Cu 3s for Na 2s
+rs = RangeSelection(83, 93)
+rs.setVars([0.25, 0.05, 1, 215.]) #Time, Size, Iteration, photon energy
 ranges.append(rs)
 
 # Valence