Ralf Sudowe scite author profile

The discovery of a new chemical element with atomic number Z=117 is reported. The isotopes (293)117 and (294)117 were produced in fusion reactions between (48)Ca and (249)Bk. Decay chains involving 11 new nuclei were identified by means of the Dubna gas-filled recoil separator. The measured decay properties show a strong rise of stability for heavier isotopes with Z > or = 111, validating the concept of the long sought island of enhanced stability for superheavy nuclei.

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Chemical investigation of hassium (element 108)

Düllmann

Brüchle

Dressler

et al. 2002

Nature

218

129

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The periodic table provides a classification of the chemical properties of the elements. But for the heaviest elements, the transactinides, this role of the periodic table reaches its limits because increasingly strong relativistic effects on the valence electron shells can induce deviations from known trends in chemical properties. In the case of the first two transactinides, elements 104 and 105, relativistic effects do indeed influence their chemical properties, whereas elements 106 and 107 both behave as expected from their position within the periodic table. Here we report the chemical separation and characterization of only seven detected atoms of element 108 (hassium, Hs), which were generated as isotopes (269)Hs (refs 8, 9) and (270)Hs (ref. 10) in the fusion reaction between (26)Mg and (248)Cm. The hassium atoms are immediately oxidized to a highly volatile oxide, presumably HsO(4), for which we determine an enthalpy of adsorption on our detector surface that is comparable to the adsorption enthalpy determined under identical conditions for the osmium oxide OsO(4). These results provide evidence that the chemical properties of hassium and its lighter homologue osmium are similar, thus confirming that hassium exhibits properties as expected from its position in group 8 of the periodic table.

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Excitation function for the production ofBh262(Z=107) in the odd-Z-projectile reaction
Folden
¹
,
Nelson
²
,
Düllmann
³

et al. 2006
Phys. Rev. C

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The excitation function for production of 262 Bh in the odd-Z-projectile reaction 208 Pb( 55 Mn, n) has been measured at three projectile energies using the Berkeley Gas-filled Separator at the Lawrence Berkeley National Laboratory 88-Inch Cyclotron. In total, 33 decay chains originating from 262 Bh and 2 decay chains originating from 261 Bh were observed. The measured decay properties are in good agreement with previous reports. The maximum cross section of 540 +180 −150 pb is observed at a lab-frame center-of-target energy of 264.0 MeV and is more than five times larger than that expected based on previously reported results for production of 262 Bh in the analogous even-Z-projectile reaction 209 Bi( 54 Cr, n). Our results indicate that the optimum beam energy in one-neutron-out heavy-ion fusion reactions can be estimated simply using the optimum energy rule proposed byŚwia˛tecki, Siwek-Wilczyńska, and Wilczyński.

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SISAK Liquid-Liquid Extraction Experiments with Preseparated 257Rf

Omtvedt

Alstad

Breivik

et al. 2002

J. Nucl. Radiochem. Sci.

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The SISAK liquid-liquid extraction system was used to extract 4.0-s Rf. The Rf was produced in the reaction Pb(Ti, 1n)Rf with 237-MeV beam energy on target, separated in the Berkeley Gas-filled Separator (BGS) and transferred to a gas jet using the Recoil Transfer Chamber (RTC). The activity delivered by the gas jet was dissolved in 6-M HNO3 and Rf was extracted into 0.25-M dibutyl-phosphoric acid in toluene. This was the first time a transactinide, i.e., an element with Z•¬104, was extracted and unequivocally identified by the SISAK system. Thus, this pilot experiment demonstrates that the fast liquid-liquid extraction system SISAK, in combination with liquidscintillation detectors, can be used for investigating the chemical properties of the transactinides. The extraction result is in accordance with the behaviour shown by the Rf group IV homologues Zr and Hf.

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Publisher’s Note: Confirmation of production of element 110 by the208Pb(64Ni
Ginter¹,
Gregorich²,
Loveland³
et al. 2003
Phys. Rev. C
26
2
41
2
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Ralf Sudowe

Synthesis of a New Element with Atomic NumberZ=117

Chemical investigation of hassium (element 108)

Excitation function for the production ofBh262(Z=107) in the odd-Z-projectile reaction
Folden
¹
,
Nelson
²
,
Düllmann
³

et al. 2006
Phys. Rev. C

SISAK Liquid-Liquid Extraction Experiments with Preseparated 257Rf

Publisher’s Note: Confirmation of production of element 110 by the208Pb(64Ni
Ginter¹,
Gregorich²,
Loveland³
et al. 2003
Phys. Rev. C
26
2
41
2
View full text Add to dashboard Cite

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Ralf Sudowe

Synthesis of a New Element with Atomic NumberZ=117

Chemical investigation of hassium (element 108)

Excitation function for the production ofBh262(Z=107) in the odd-Z-projectile reactionFolden1, Nelson2, Düllmann3 et al. 2006Phys. Rev. C

SISAK Liquid-Liquid Extraction Experiments with Preseparated 257Rf

Publisher’s Note: Confirmation of production of element 110 by the208Pb(64NiGinter1, Gregorich2, Loveland3 et al. 2003Phys. Rev. C262412View full textAdd to dashboardCite

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Product

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Excitation function for the production ofBh262(Z=107) in the odd-Z-projectile reaction
Folden
¹
,
Nelson
²
,
Düllmann
³

et al. 2006
Phys. Rev. C

Publisher’s Note: Confirmation of production of element 110 by the208Pb(64Ni
Ginter¹,
Gregorich²,
Loveland³
et al. 2003
Phys. Rev. C
26
2
41
2
View full text Add to dashboard Cite