Nuclear Physics Institute Academy of Sciences of the
- Slides: 29
Nuclear Physics Institute, Academy of Sciences of the Czech Republic Department of Nuclear Reactors, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague Three years of cross-section measurements of (n, xn) threshold reactions at TSL Uppsala and NPI Řež O. Svoboda, A. Krása, A. Kugler, M. Majerle, J. Vrzalová, V. Wagner EFNUDAT Workshop 26. 5. 2010
Outline Motivation n Motivation for cross-section measurements s measurement n Requirements for cross-section measurements TSL Uppsala n TSL Uppsala facility n NPI Řež facility n Evaluation and neutron background subtraction n Results - Comparison with EXFOR and TALYS n Conclusion NPI Řež Evaluation Results Conclusion 2
Motivation for s measurements – Energy plus Transmutation project Motivation • E+T • (n, xn) reactions JINR Dubna, Russia • E+T results • (n, xn) in EXFOR s measurement TSL Uppsala NPI Řež Evaluation Results Conclusion 3
(n, xn) threshold reactions Motivation • E+T Reaction E thresh [Me. V] Half-life • (n, xn) reactions 197 Au (n, 2 n) 196 Au 8. 1 6. 183 d • E+T results 197 Au (n, 3 n) 195 Au 14. 8 186. 1 d • (n, xn) in EXFOR 197 Au (n, 4 n) 194 Au 23. 2 38. 02 h s measurement 197 Au (n, 5 n) 193 Au 30. 2 17. 65 h 197 Au (n, 6 n) 192 Au 38. 9 4. 94 h 197 Au (n, 7 n) 191 Au 45. 7 3. 18 h TSL Uppsala NPI Řež Evaluation Results Conclusion Al Au Bi Co In Ta 4
E+T results – (n, xn) cross-section fault? ? Motivation Experiment MCNPX simulation • E+T • (n, xn) reactions • E+T results • (n, xn) in EXFOR s measurement TSL Uppsala NPI Řež Evaluation Results Conclusion (n, xn) cross-sections need to be verified… 5
Current status of (n, xn) reaction knowledge Motivation • E+T • (n, xn) reactions • E+T results • (n, xn) in EXFOR s measurement TSL Uppsala NPI Řež Evaluation Results Conclusion 6
Requirements for s measurements Motivation Requirements for using activation method of measurement: s measurement § high energy neutron source with good intensity • requirements § (quasi)monoenergetic neutrons with well known spectrum • exp. history § pure monoisotopic samples TSL Uppsala § good spectroscopic equipment: shielded HPGe detectors NPI Řež § knowledge about the corrections on beam fluctuation, self-absorption, non-point like emitters… Evaluation Results Conclusion Studied (mono)isotopic materials: In all irradiations: Al, Au, Bi, I, In, Ta In some irradiations: Co, Cu, Fe, Mg, Ni, Y, Zn 7
Cross-section experiments history Motivation 2007 – Proposal to EFNUDAT on (n, xn) measurements – accepted s measurement 5/2008 – pilot/testing measurements at NPI Řež – 25 Me. V • requirements • exp. history 6/2008 – measurement at TSL Uppsala – 25, 50, and 97 Me. V TSL Uppsala 8/2008 – measurements at NPI Řež – 20 Me. V NPI Řež 4/2009 – measurements at NPI Řež – 32. 5 Me. V Evaluation 5/2009 – measurement at NPI Řež – 37 Me. V Results 2009 – proposal to last call of EFNUDAT on further experiments at Uppsala – accepted Conclusion 2/2010 - measurement at TSL Uppsala – 62, 70, 80, and 93 Me. V Autumn/2010 – planned new measurements in Řež 8
Motivation TSL Uppsala - Blue hall s measurement TSL Uppsala • Blue hall • irradiations NPI Řež Evaluation Results Neutron spectra known for proton energies 25, 50 and 97 Me. V Blue hall: quasi-monoenergetic neutron source based on reaction 7 Li(p, n)7 Be Conclusion 9
TSL Uppsala - irradiations Motivation s measurement TSL Uppsala • Blue hall • irradiations Proton beam energy [Me. V] 25 50 97 thickness [mm] 2 4 8. 5 Proton beam current [m. A] 5 5 2 Average energy of peak neutrons [Me. V] 22 47 94 Fraction of neutrons in the peak [%] 50 39 41 Peak neutron flux density [105 cm-2 s-1] 6 13 14. 5 7 Li-target NPI Řež Evaluation Results Conclusion 10
Cyclotron in NPI Řež • Protons 18 – 37 Me. V on 7 Li target Motivation • High neutron intensities: 108 cm-2 s-1 s measurement • Well equipped spectroscopic laboratory TSL Uppsala Beam-line Graphite stopper (NSD-NPI) NPI Řež Samples • cyclotron • neutron spectra Evaluation Li-target Results Conclusion 11
Neutron spectra from p/Li source in NPI Řež Motivation Neutron spectra known for 20, 25, 30, and 35 Me. V – Y. Uwamino et al. , NIM A 389 (1997) 463 – similar construction of p/Li source s measurement TSL Uppsala NPI Řež • cyclotron • neutron spectra Evaluation Results Conclusion Uncertainty in spectrum determination – 10% 12
Evaluation process Motivation s measurement TSL Uppsala NPI Řež Evaluation HPGe Irradiation Spectra evaluation • process NYield • background 1 • background 2 • uncertainties Results Corrections Conclusion Cross-section 13
Background subtraction 1 TALYS 1. 0 (TALYS 1. 2) Motivation § deterministic code s measurement § provides complete and accurate calculation of the nuclear reactions in the energy range from 1 ke. V to 200 Me. V TSL Uppsala NPI Řež Evaluation • process • background 1 • background 2 • uncertainties Results Conclusion 14
Background subtraction 2 • s comparisons between EXFOR and TALYS 1. 0 – mostly good Motivation agreement • we believe the simulated s shape is OK, only the absolute value can s measurement be shifted TSL Uppsala NPI Řež Evaluation • process • background 1 • background 2 • uncertainties Results Conclusion • following the neutron spectrum knowledge, we calculated ratio between production in neutron peak and total production • with this ratio we multiplied the yields to subtract background production 15
Uncertainty analysis Motivation § HPGe detector calibration uncertainty: less than 3% s measurement § Gauss-fit of the gamma peaks: > 1% (usually less than 10%) TSL Uppsala § spectroscopic corrections uncertainty: less than 1% NPI Řež § neutron spectra determination: 10% Evaluation § neutron beam intensity determination: 5% at NPI, 10% at TSL • process • background 1 • background 2 • uncertainties Results Conclusion § TALYS 1. 0 versus TALYS 1. 2 – differences in results around 10% § TALYS modifications - nuclear density variations: less than 10% difference in results § background subtraction procedure – assessed to ~10% uncertainty, but will be further studied 16
197 Au(n, 2 n)196 Au results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 196 Au • 194 Au • 193 Au • 192 Au Conclusion 17
197 Au(n, 4 n)194 Au results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 196 Au • 194 Au • 193 Au • 192 Au Conclusion 18
197 Au(n, 5 n)193 Au results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 196 Au • 194 Au • 193 Au • 192 Au Conclusion 19
197 Au(n, 6 n)192 Au results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 196 Au • 194 Au • 193 Au • 192 Au Conclusion Au measured up to 188 Au… 20
209 Bi(n, 3 n)207 Bi results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 207 Bi • 206 Bi • Other Bi Conclusion 21
209 Bi(n, 4 n)206 Bi results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 207 Bi • 206 Bi • Other Bi Conclusion 22
Other 209 Bi(n, xn) results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 207 Bi • 206 Bi • Other Bi Conclusion Bi measured up to 200 Bi… 23
181 Ta(n, 2 n)180 Ta results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 181 Ta • 114 m. In • 24 Na • 27 Mg Conclusion 24
nat. In(n, xn)114 m. In results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 181 Ta • 114 m. In • 24 Na • 27 Mg Conclusion In measured up to 108 In… 25
27 Al(n, a)24 Na results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 181 Ta • 114 m. In • 24 Na • 27 Mg Conclusion 26
27 Al(n, p)27 Mg results Motivation s measurement TSL Uppsala NPI Řež Evaluation Results • 181 Ta • 114 m. In • 24 Na • 27 Mg Conclusion 27
Conclusions Motivation s measurement TSL Uppsala NPI Řež Evaluation Results Conclusion § Uppsala and Řež cross-section measurements covered wide range of energies (17 – 94 Me. V) § threshold reactions in Au, Bi, I, In, and Ta studied up to (n, 10 n) § our results for well known cross-sections agree with other experimental data in EXFOR § near future: finish the evaluation of cross-section measurements from Uppsala - February 2010 § autumn 2010 – planed next cross-sections measurements at NPI Řež § further study of the background subtraction procedure and its uncertainty 28
Acknowledgements We would like to thank to Dr. Bém and his colleagues for the possibility to joint their irradiations on cyclotron in Řež! This work was supported from the EFNUDAT, grant CTU 0808214 and by the F 4 E program of the Nuclear Reaction Department (NPI), F 4 E-2008 -GRT-014. Thank you for your attention. . 29
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