Measurement of <sup>191</sup>Ir(n,2n)<sup>190</sup>Ir cross section near 14 MeV

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Abstract

Natural iridium acts as a high-quality activated detector for probing the energy components of a neutron fluence. Measurements of ¹⁹¹Ir(n,2n) ¹⁹⁰Ir cross sections are carried out near 14 MeV by the activation method based on ⁹³Nb(n,2n) ^92mNb reaction cross section standard by PD-300 neutron generator DT neutron source. The (n,2n) products are measured by using a calibrated high pure Ge detector. The cross sections of ¹⁹¹Ir(n,2n) ¹⁹⁰Ir, σ _m2and σ _g+m1, are measured carefully. The ¹⁹¹Ir(n,2n) ¹⁹⁰Ir cross sections: σ _m2, σ _g+m1, σ _g+m1+m2and cross section ratio of σ _m2/ σ _g+m1are obtained in an energy range of 13.40–14.86 MeV. Experimental uncertainties are in a range of 3.4%–3.5%. The measured cross sections for the reaction of ¹⁹¹Ir(n,2n) ¹⁹⁰Ir at 14 MeV are σ _m2= (136.05 ± 4.93) mb, σ _g+m1= (1972.35 ± 67.06) mb, σ _g+m1+m2= (2108.40 ± 71.99) mb, and σ _m2/ σ _g+m1= 0.0690 ± 0.0024. The present data are compared with the previous experimental data and the ENDF/B-VIII.0 and JEFF3.0/A evaluated data, showing that the experimental data from the literature are in good agreement with the present data for σ _g+m1, the evaluated data from JEFF3.0/A are underestimated by 5%–20% in comparison with the present data for σ _m2, the evaluated data from ENDF/B-VIII.0 are underestimated by 10% in comparison with the present data for σ _m2, and the ENDF/B-VIII.0 data are consistent with the present data for σ _g+m1+m2. The discrepancies between the data from the literature and the present data are analyzed and clarified. The present data show significant improvement in accuracy in comparison with data from the literature, these results provide more reliable nuclear data for improving the future evaluation.

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Corresponding author:Zhu Chuan-Xin,zcx_602@sina.com

Funds:Project supported by the National Natural Science Foundation of China (Grant No. 11775200).

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样品	纯度/%	同位素成分/%	厚度/mm	直径/mm
Nb	99.999	⁹³Nb 100	0.5	20
Ir	99.95	¹⁹¹Ir 37.3	0.5	20
Ir	99.95	¹⁹³Ir 62.7	0.5	20

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核素	半衰期	E_γ/keV	I_γ
^92mNb	10.15 d	934.44	0.9915
^190gIr	11.78 d	371.24	0.216
^190m2Ir	3.087 h	616.50	0.9015

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E_n/MeV	σ_g+m1/mb	σ_m2/mb	σ/mb	σ_m2/σ_g+m1
13.40	1939.42 ± 65.94	122.09 ± 4.29	2061.51 ± 70.23	0.0630 ± 0.0022
13.60	1957.66 ± 66.56	128.30 ± 4.58	2085.96 ± 71.14	0.0655 ± 0.0023
13.80	1963.28 ± 66.75	132.92 ± 4.85	2096.20 ± 71.60	0.0677 ± 0.0024
14.00	1972.35 ± 67.06	136.05 ± 4.93	2108.40 ± 71.99	0.0690 ± 0.0024
14.20	1977.33 ± 67.23	140.08 ± 5.03	2117.41 ± 72.26	0.0708 ± 0.0025
14.40	1981.92 ± 67.39	150.98 ± 5.34	2132.90 ± 72.73	0.0762 ± 0.0026
14.60	1980.04 ± 67.32	161.50 ± 5.82	2141.54 ± 73.14	0.0816 ± 0.0029
14.80	1981.45 ± 67.37	164.25 ± 5.87	2145.70 ± 73.24	0.0829 ± 0.0029
14.86	1964.28 ± 66.79	158.56 ± 5.72	2122.84 ± 72.51	0.0807 ± 0.0028

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不确定度来源	不确定度 %
⁹³Nb(n,2n)^92mNb反应截面数据	2.0
伴随α粒子相对监测	1.0
HPGe探测器效率刻度	2.0
特征γ射线峰计数	0.7—0.9
衰变数据	1.0
时间因子	0.5
修正因子	1.0
总不确定度	3.4—3.5

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