ETNA (Efficiency Transfer for Nuclide Activity measurement)
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1 ETNA (Efficiency Transfer for Nuclide Activity measurement) ETNA is a software for computing efficiency transfer and coincidence summing corrections for gamma-ray spectrometry. The software has been developed at the Laboratoire National Henri Becquerel and is available upon request.
2 ETNA Transfer of efficiency Semi-empirical method (from a reference efficiency) Coaxial cylindrical geometry (point. disk. cylinder. Marinelli) Coincidence summing corrections Knowledge of the efficiency (total and full-energy peak) Possibility of efficiency transfer Decay scheme from Nucleide Data management Decay scheme Attenuation coefficients
3 ETNA main window
4 Recent update (04/11/010) Thanks to Dr Aldo FAZIO (ENEA)!
5 Efficiency transfer principle Point source moving along the detector axis ε (E, P 0 ) = ε I(E). Ω(P 0 ) ε (E, P) = ε I(E). Ω(P) ε (E,P) = ε Ω(P) (E,P0). Ω(P 0 )
6 Solid angle for point source Using polar coodinates. the solid angle Ω(P) between point P (r, φ, z s ) and the detector entrance surface (disc) is: Ω(P) = z R D is the detector radius. π S 0 R dϕ 0 D R R R dr r cosϕ + r + z 3/ S The geometrical factor should include: - attenuation in differents absorbing layers (air, window, dead layer. ) : F att m F att = exp µ i= 1 i δ i - absorption in the detector active volume : F abs Fabs = f1+ f f ' = 1 ( µ δ ) f = 1 ( µ δ ) f ' = exp( µ ( + δ )) f1 exp D 1D exp D D D 1D
7 Solid angle for a cylindrical source For a volume source (cylindrical symmetry : radius R S, thickness H S, vertical position Z S ): Fatt and F abs must be included in the integration procedure + ϕ + ϕ Ω = + π S S S D S H Z Z R 0 3/ 0 R 0 S S h r cos r R R R dr d dr r h dh H R 4
8 Solid angle for a cylindrical source If the source diameter is larger than the detector one: Ω = (V1+ V)S1 dω + (V)S dω = Ω 1 + Ω V V1 V1 V H S Ω 1 = R S 4 H S Z + H S Z S S h dh R 0 S r dr π 0 dϕ R D 0 R F att F abs R dr R r cosϕ + r + h 3/ S R S S1 R D Ω = 4 R S H Z + H φ0 r dr dϕ S S S 0 R D s Z S dh R 0 0 Z D R F att F abs ( r cosϕ R ) R r cosϕ + r + h dz D 3/ H D
9 Integration method Integration are numerically performed using the Gauss-Legendre method: b a f (x)dx = ( b a) n i= 1 w i f (x i ) f (x i ) = ( b a) ( b + a) x x i and w i = roots and weights of Legendre polynomials i + Point sources, discs, cylinders and Marinelli (along the detector axis) are considered.
10 Requires Detector parameters Source parameters Container Matrix Input of data Geometry conditions (source-to-detector distance, screen) Reference efficiency Recorded in the «user» database
11 Efficiency transfer window
12 Input of geometry parameters
13 Input of detector parameters
14 Input of source parameters Source : type and characteristics (container and material)
15 Input of calibration efficiencies Manual input Function (APOCOPE or APOLOG) File import
16 Efficiency transfer results
17 Coincidence summing
18 Calculation principle ETNA uses a numerical method, according to Andreev, Mc Callum principle: Z X C 1 = 1 1 P ε 1 T β - γ 1 A Z + 1 Y γ P 1 : probability for emitting γ simultaneaously with γ 1 ε Pi : FEP efficiency for energy E i ε Ti : Total efficiency for energy E i γ 3 C 3 = C = 1 P ε I I γ 1 γ T 1 ε P1 ε ε P3 P P 1
19 Calculation principle () Double coincidences Coincidences with K X-rays (electron capture or internal conversion) are computed Correction for K-X-rays (from gamma or X rays) are computed Beta+ emitting nuclides are considered (modification of the decay scheme) No angular correlation
20 ETNA Input data ETNA requires: 1. Decay scheme (Nucleide database). FEP and total efficiency for at least one source-to-detector geometry («calibration geometry» recorded in the «user» database)
21 ETNA Coincidence tab From Nucleide
22 Calibration geometry window
23 Efficiency calibration
24 Coincidence correction results dimanche février 009 ETNA Version 5.5 Rev 51 Filename :C:\Documents and Settings\ML11836\Bureau\Workshop_ICRM\Presentations\ETNA\test_ETNA dimanche février 009 Processing identification : Coincidence summing correction (simplified computing) Nuclide :Ba133 Daughter nuclide :Cs133 Half-life threshold : s Calibration geometry : G1 SP reference (Source ponctuelle à 10 cm) Calibration source :Source ponctuelle Calibration source - detector distance :100 mm Calibration absorber :None Calibration absorber - detector distance :0 mm Measurement geometry :Calibration geometry Detector :G1 - pièce 6A Results : Error codes : 0 0 X-ray correction : Starting Arrival Energy Gamma-gamma Gamma-X Total level level (kev) correction correction correction : CEA\LNHB BNM
25 Calculation with efficiency transfer
26 Decay scheme data Attenuation coefficients Data update Nucléide: import of updated data (only for LNHB!)
27 Data update Attenuation coefficients Manual input File import (XCOM or ASCII)
28 Import file from XCOM Attenuation coefficients
29 Experimental validation (1) Efficiency transfer: point source from 1 to 5 cm from detector window 137 Cs et 57 Co (with Al screen): no coincidences Reference peak area: 10 cm Source-todetector distance Experiment al peak relative area 137 Cs (66 kev) ETNA Ratio ETNA/Expe rimental Experiment al peak relative area 57 Co (1 kev) Ratio ETNA/Expe ETNA rimental 5 cm 0.06 (1) 0.06 (5) (1) (4) cm (1) (6) (1) 0.86 (6) cm (1) (10) () (11) cm 1.43 (3) 1.40 (36) (5) 1.46 (40) cm.17 (5).18 (7) (7).3 (8) cm.785 (6).8 (9) (10) 3.06 (11) cm (8) 3.75 (14) (13) 4.18 (18) cm (1) 5.1 (4) (19) 6.00 (30) cm (17) 7.73 (43) (9) 9.19 (55) cm 1.40 (3) 1.4 (10) (5) 15.1 (13) Maximum relative standard uncertainties: (parameters uncertainties). % at 15 cm.8 % at 8 cm 3.7 % at 5 cm 5 % at 3 cm % at 1 cm
30 Experimental validation () EUROMET Exercice Comparison of software used to compute transfer efficiency Experimental calibration for 3 volume sources HCl 1N (density=1.016) Silica (d=0.5) Sand-resin mixture (d=1.54) Transfer of Ge detectors efficiency calibration from point source geometry to other geometries M.C. Lépy et al., Rapport CEA R5894 (000)
31 Experimental calibration Energy (kev) Efficiency (%) for liquid Efficiency (%) for silica Efficiency (%) for sand/resin (1.3 %).863 (1.3 %) (1.4 %) (1.3 %) (1.3 %) (1.4 %) (1.1 %) 6.9 (1. %) 4.74 (1.3 %) (1.1 %) 6.01 (1.1 %) (1.3 %) (1.1 %) 5.0 (1.1 %) (1.3 %) (1.1 %) (1.1 %) (1.3 %) (1.1 %).40 (1.1 %) (1.3 %) (1.1 %) (1.1 %) (1.3 %) (1.0 %) 1.13 (1.1 %) (1.3 %) (1.0 %) (1.1 %) (1.3 %) (1.0 %) (1.1 %) 0.79 (1.3 %) (1.0 %) 0.78 (1. %) 0.66 (1.4 %) (1. %) (1.3 %) 0.57 (1.7 %)
32 Calculation for silica ETNA/EXP Silica Rel unc exp silica (%) Silica (kev) ETNA Exp transfer Energy
33 Calculation for sand-resin mixture ETNA/EXP Sand Rel unc exp sand (%) Sand (kev) ETNA Exp transfer Energy
34 Calculation validation T. Vidmar intercomparison (IAEA CRP) Two detectors Simple «school case» geometries Point source Soil Filter Reference geometry: liquid Testing efficiency transfer codes for equivalence T. Vidmar et al., Applied Radiation and Isotopes 68 (010)
35 Calculation validation Detector A (P-type) Detector B (N-type) ETNA/PARTICIPANTS MEAN VALUE Énergy (kev) Point source Soil Filter 45 0,997 1,03 1, ,00 1,00 1, ,000 1,001 1, ,998 1,013 1, ,990 0,999 1, ,988 0,995 1, ,990 0,994 1, ,989 0,99 1,009 ETNA/PARTICIPANTS MEAN VALUE Énergy (kev) Point source Soil FIlter 0 1,01 1,04 1, ,003 1,01 1, ,004 1,00 1, ,00 1,001 1, ,999 1,011 1, ,991 1,000 1, ,986 0,993 1, ,985 0,99 1, ,987 0,99 1,01
36 Experimental validation () Coincidence corrective factor Point sources at different distances (15 to 1 cm) Maximum relative standard uncertainties of the corrective factors computed with ETNA : % at 15, 10 and 8 cm 5 % at 5 cm 10 % at 1 cm Source-to-detector distance Radionuclide Photon energy 15 cm 10 cm 8 cm 5 cm 3 cm 1 cm 60 Co 1173 kev 1.01 (4) 1.01 (3) 1.0 (4) 1.0 (5) 1.04 (6) 1.11 (10) kev 1.00 (4) 1.00 (3) 1.01 (4) 1.0 (5) 1.03 (6) 1.11 (10) Sb 604 kev 1.00 (4) 1.01 (3) 1.0 (4) 1.05 (5) 1.07 (6) 1.18 (11) kev 1.0 (4) 1.03 (3) 1.05 (4) 1.08 (5) 1.15 (7) 1.36 (1) kev 1.01 (4) 1.01 (3) 1.0 (4) 1.04 (5) 1.05 (6) 1.16 (10) Cs 564 kev 1.03 (4) 1.0 (3) 1.03 (4) 1.07 (5) 1.1 (7) 1.3 (1) kev 1.03 (4) 1.03 (3) 1.03 (4) 1.06 (5) 1.1 (7) 1.3 (1) kev 1.00 (4) 1.0 (3) 1.0 (4) 1.03 (5) 1.07 (6) 1.19 (11) kev 1.01 (4) 1.01 (3) 1.0 (4) 1.04 (5) 1.08 (6) 1.0 (11) kev 1.00 (4) 1.00 (3) 1.00 (4) 0.97 (5) 0.91 (5) 0.83 (7) Eu 1 kev 1.0 (4) 1.03 (3) 1.04 (4) 1.07 (5) 1.14 (7) 1.39 (1) kev 1.01 (4) 1.03 (3) 1.05 (4) 1.10 (5) 1.0 (7) 1.64 (15) kev 1.01 (4) 1.0 (3) 1.0 (4) 1.04 (5) 1.07 (6) 1.17 (11) kev 1.01 (4) 1.01 (3) 1.03 (4) 1.04 (5) 1.08 (6) 1.19 (11) kev 1.01 (4) 1.0 (3) 1.05 (4) 1.08 (5) 1.16 (7) 1.46 (13) Ba 53 kev 1.01 (4) 1.07 (3) 1.08 (4) 1.18 (6) 1.7 (8) 1.58 (14) kev 0.98 (4) 1.00 (3) 1.01 (4) 1.04 (5) 1.10 (7) 1.35 (1) kev 1.01 (4) 1.03 (3) 1.04 (4) 1.07 (5) 1.15 (7) 1.4 (13) Experimental validation of coincidence summing corrections computed by the ETNA software. M.C. Lépy, P. Brun, C. Collin and J. Plagnard, Appl Radiat Isot., 64, 006, pages
37 Coincidences for 15 Eu 1,06 1,05 1,45 1,4 1,35 1,3 1,5 1, 1,15 1,1 1,05 Participants mean value LNHB results 1,04 1,03 Participants mean value LNHB results Energy 1,0 1,14 1,01 1, Energy 1,1 1,08 1,06 Participants mean value LNHB results 1,04 1, Energy Intercomparison of methods for coincidence summing corrections in gamma-ray spectrometry M.-C. Lépy et al. Applied Radiation and Isotopes, Volume 68, Issues 7-8, July-August 010, Pages
38 Coincidences for 134 Cs 1,040 1,030 1,00 1,1 1,1 1,08 1,06 1,04 1,0 1 0,98 0,96 0,94 Participants mean value LNHB results 1,010 1,000 0,990 0,980 Participants mean value LNHB results 0, ,3 1,5 1, 1,15 0, ,1 1,05 1 0,95 0,9 0,85 0, Participants mean value LNHB results
39 Thank you for your attention!
ETNA (Efficiency Transfer for Nuclide Activity measurement)
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