Production of 265Sg in the 248Cm(22Ne,5n)265Sg reaction and decay properties of two isomeric states in 265Sg

H. Haba, D. Kaji, Y. Kudou, K. Morimoto, Kosuke Morita, K. Ozeki, R. Sakai, T. Sumita, A. Yoneda, Y. Kasamatsu, Y. Komori, A. Shinohara, H. Kikunaga, H. Kudo, K. Nishio, K. Ooe, N. Sato, K. Tsukada

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Abstract

Two isomeric states of 265Sg, i.e., 265Sga and 265Sgb, proposed in Ch. E. Düllmann and A. Türler were produced in the 248Cm(22Ne,5n)265Sg reaction. Decay properties of 265Sga,b were investigated with a rotating-wheel apparatus for α and spontaneous fission (SF) spectrometry under low background conditions attained by a gas-jet transport system coupled to the RIKEN gas-filled recoil ion separator. Based on genetically correlated α-α(-α) and α-SF decay chains, 18 and 24 events were assigned to 265Sga and 265Sgb, respectively. The half-life T1/2 and α-particle energy Eα of 265Sga were measured to be 8.5-1.6+2.6 s and 8.84 ± 0.05 MeV, respectively, and those of 265Sgb were 14.4-2.5+3.7 s and 8.69 ± 0.05 MeV. As a daughter product of 265Sga ,b, the decay properties of the 3-s isomeric state in 261Rf, i.e., 261Rfb, were also derived: T1/2 = 2.6-0.5+0.7 s, Eα = 8.51 ± 0.06 MeV, and SF branch bSF = 0.82 ± 0.09. These results confirm and refine the decay pattern suggested for the decay chain 269Hs → 265Sga,b → 261Rfa,b → 257No → in Düllmann and Türler. The production cross sections for 265Sga and 265Sgb were determined to be 180-60+80 and 200-50+60 pb at 117.8 MeV, respectively, and they are discussed by comparing with the literature data as well as the theoretical prediction.

Original languageEnglish
Article number024611
JournalPhysical Review C - Nuclear Physics
Volume85
Issue number2
DOIs
Publication statusPublished - Feb 21 2012
Externally publishedYes

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decay
fission
recoil ions
gas jets
separators
wheels
particle energy
half life
cross sections
products
predictions
gases
spectroscopy

All Science Journal Classification (ASJC) codes

  • Nuclear and High Energy Physics

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Production of 265Sg in the 248Cm(22Ne,5n)265Sg reaction and decay properties of two isomeric states in 265Sg. / Haba, H.; Kaji, D.; Kudou, Y.; Morimoto, K.; Morita, Kosuke; Ozeki, K.; Sakai, R.; Sumita, T.; Yoneda, A.; Kasamatsu, Y.; Komori, Y.; Shinohara, A.; Kikunaga, H.; Kudo, H.; Nishio, K.; Ooe, K.; Sato, N.; Tsukada, K.

In: Physical Review C - Nuclear Physics, Vol. 85, No. 2, 024611, 21.02.2012.

Research output: Contribution to journalArticle

Haba, H, Kaji, D, Kudou, Y, Morimoto, K, Morita, K, Ozeki, K, Sakai, R, Sumita, T, Yoneda, A, Kasamatsu, Y, Komori, Y, Shinohara, A, Kikunaga, H, Kudo, H, Nishio, K, Ooe, K, Sato, N & Tsukada, K 2012, 'Production of 265Sg in the 248Cm(22Ne,5n)265Sg reaction and decay properties of two isomeric states in 265Sg', Physical Review C - Nuclear Physics, vol. 85, no. 2, 024611. https://doi.org/10.1103/PhysRevC.85.024611
Haba, H. ; Kaji, D. ; Kudou, Y. ; Morimoto, K. ; Morita, Kosuke ; Ozeki, K. ; Sakai, R. ; Sumita, T. ; Yoneda, A. ; Kasamatsu, Y. ; Komori, Y. ; Shinohara, A. ; Kikunaga, H. ; Kudo, H. ; Nishio, K. ; Ooe, K. ; Sato, N. ; Tsukada, K. / Production of 265Sg in the 248Cm(22Ne,5n)265Sg reaction and decay properties of two isomeric states in 265Sg. In: Physical Review C - Nuclear Physics. 2012 ; Vol. 85, No. 2.
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abstract = "Two isomeric states of 265Sg, i.e., 265Sga and 265Sgb, proposed in Ch. E. D{\"u}llmann and A. T{\"u}rler were produced in the 248Cm(22Ne,5n)265Sg reaction. Decay properties of 265Sga,b were investigated with a rotating-wheel apparatus for α and spontaneous fission (SF) spectrometry under low background conditions attained by a gas-jet transport system coupled to the RIKEN gas-filled recoil ion separator. Based on genetically correlated α-α(-α) and α-SF decay chains, 18 and 24 events were assigned to 265Sga and 265Sgb, respectively. The half-life T1/2 and α-particle energy Eα of 265Sga were measured to be 8.5-1.6+2.6 s and 8.84 ± 0.05 MeV, respectively, and those of 265Sgb were 14.4-2.5+3.7 s and 8.69 ± 0.05 MeV. As a daughter product of 265Sga ,b, the decay properties of the 3-s isomeric state in 261Rf, i.e., 261Rfb, were also derived: T1/2 = 2.6-0.5+0.7 s, Eα = 8.51 ± 0.06 MeV, and SF branch bSF = 0.82 ± 0.09. These results confirm and refine the decay pattern suggested for the decay chain 269Hs → 265Sga,b → 261Rfa,b → 257No → in D{\"u}llmann and T{\"u}rler. The production cross sections for 265Sga and 265Sgb were determined to be 180-60+80 and 200-50+60 pb at 117.8 MeV, respectively, and they are discussed by comparing with the literature data as well as the theoretical prediction.",
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AU - Haba, H.

AU - Kaji, D.

AU - Kudou, Y.

AU - Morimoto, K.

AU - Morita, Kosuke

AU - Ozeki, K.

AU - Sakai, R.

AU - Sumita, T.

AU - Yoneda, A.

AU - Kasamatsu, Y.

AU - Komori, Y.

AU - Shinohara, A.

AU - Kikunaga, H.

AU - Kudo, H.

AU - Nishio, K.

AU - Ooe, K.

AU - Sato, N.

AU - Tsukada, K.

PY - 2012/2/21

Y1 - 2012/2/21

N2 - Two isomeric states of 265Sg, i.e., 265Sga and 265Sgb, proposed in Ch. E. Düllmann and A. Türler were produced in the 248Cm(22Ne,5n)265Sg reaction. Decay properties of 265Sga,b were investigated with a rotating-wheel apparatus for α and spontaneous fission (SF) spectrometry under low background conditions attained by a gas-jet transport system coupled to the RIKEN gas-filled recoil ion separator. Based on genetically correlated α-α(-α) and α-SF decay chains, 18 and 24 events were assigned to 265Sga and 265Sgb, respectively. The half-life T1/2 and α-particle energy Eα of 265Sga were measured to be 8.5-1.6+2.6 s and 8.84 ± 0.05 MeV, respectively, and those of 265Sgb were 14.4-2.5+3.7 s and 8.69 ± 0.05 MeV. As a daughter product of 265Sga ,b, the decay properties of the 3-s isomeric state in 261Rf, i.e., 261Rfb, were also derived: T1/2 = 2.6-0.5+0.7 s, Eα = 8.51 ± 0.06 MeV, and SF branch bSF = 0.82 ± 0.09. These results confirm and refine the decay pattern suggested for the decay chain 269Hs → 265Sga,b → 261Rfa,b → 257No → in Düllmann and Türler. The production cross sections for 265Sga and 265Sgb were determined to be 180-60+80 and 200-50+60 pb at 117.8 MeV, respectively, and they are discussed by comparing with the literature data as well as the theoretical prediction.

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