Your search keyword '"V. G. Subbotin"' showing total 80 results

1. Flexible algorithms for background suppression in heavy ion induced nuclear reactions

Author

D. Ibadullayev, Yu. S. Tsyganov, A. N. Polyakov, A. A. Voinov, V. G. Subbotin, M. V. Shumeiko, and L. Schlattauer

Subjects

Nuclear and High Energy Physics, Radiation, Physics and Astronomy (miscellaneous), Materials Science (miscellaneous), Condensed Matter Physics

Published

2022

2. New isotope Mc286 produced in the Am243+Ca48 reaction

Author

Yu. Ts. Oganessian, V. K. Utyonkov, N. D. Kovrizhnykh, F. Sh. Abdullin, S. N. Dmitriev, A. A. Dzhioev, D. Ibadullayev, M. G. Itkis, A. V. Karpov, D. A. Kuznetsov, O. V. Petrushkin, A. V. Podshibiakin, A. N. Polyakov, A. G. Popeko, I. S. Rogov, R. N. Sagaidak, L. Schlattauer, V. D. Shubin, M. V. Shumeiko, D. I. Solovyev, Yu. S. Tsyganov, A. A. Voinov, V. G. Subbotin, A. Yu. Bodrov, A. V. Sabel'nikov, A. V. Khalkin, K. P. Rykaczewski, T. T. King, J. B. Roberto, N. T. Brewer, R. K. Grzywacz, Z. G. Gan, Z. Y. Zhang, M. H. Huang, and H. B. Yang

Published

2022

3. First experiment at the Super Heavy Element Factory: High cross section of Mc288 in the Am243+Ca48 reaction and identification of the new isotope Lr264

Author

Yu. Ts. Oganessian, V. K. Utyonkov, N. D. Kovrizhnykh, F. Sh. Abdullin, S. N. Dmitriev, D. Ibadullayev, M. G. Itkis, D. A. Kuznetsov, O. V. Petrushkin, A. V. Podshibiakin, A. N. Polyakov, A. G. Popeko, R. N. Sagaidak, L. Schlattauer, I. V. Shirokovski, V. D. Shubin, M. V. Shumeiko, D. I. Solovyev, Yu. S. Tsyganov, A. A. Voinov, V. G. Subbotin, A. Yu. Bodrov, A. V. Sabel'nikov, A. V. Khalkin, V. B. Zlokazov, K. P. Rykaczewski, T. T. King, J. B. Roberto, N. T. Brewer, R. K. Grzywacz, Z. G. Gan, Z. Y. Zhang, M. H. Huang, and H. B. Yang

Published

2022

4. Investigation of Ca48 -induced reactions with Pu242 and U238 targets at the JINR Superheavy Element Factory

Author

Yu. Ts. Oganessian, V. K. Utyonkov, D. Ibadullayev, F. Sh. Abdullin, S. N. Dmitriev, M. G. Itkis, A. V. Karpov, N. D. Kovrizhnykh, D. A. Kuznetsov, O. V. Petrushkin, A. V. Podshibiakin, A. N. Polyakov, A. G. Popeko, R. N. Sagaidak, L. Schlattauer, V. D. Shubin, M. V. Shumeiko, D. I. Solovyev, Yu. S. Tsyganov, A. A. Voinov, V. G. Subbotin, A. Yu. Bodrov, A. V. Sabel'nikov, A. Lindner, K. P. Rykaczewski, T. T. King, J. B. Roberto, N. T. Brewer, R. K. Grzywacz, Z. G. Gan, Z. Y. Zhang, M. H. Huang, and H. B. Yang

Published

2022

5. Synthesizing and Studying Superheavy Nuclei 294Ts and 294Og

Author

V. K. Utyonkov, F. Sh. Abdullin, V. G. Subbotin, R. N. Sagaidak, M. G. Itkis, M. V. Shumeiko, I. V. Shirokovsky, Yu. Ts. Oganessian, A. N. Polyakov, A. V. Sabelnikov, Yu. S. Tsyganov, N. D. Kovrizhnykh, Grigory K. Vostokin, A. A. Voinov, and S. N. Dmitriev

Subjects

010302 applied physics, Physics, Nuclear physics, Isotope, 010308 nuclear & particles physics, 0103 physical sciences, Hadron, General Physics and Astronomy, Nuclide, 01 natural sciences, Recoil separator, Radioactive decay

Abstract

Experimental works performed on the Dubna gas-filled magnetic recoil separator (GFS) to study the reactions of formation of 294Ts and 294Og nuclides and the properties of their radioactive decay are described. Future possibilities of synthesizing new elements with Z = 119 and Z = 120 and performing experiments to study the properties of heavier isotopes of known superheavy nuclei Lv (Z = 116), Ts (Z = 117), and Og (Z = 118) are discussed.

Published

2020

6. Study of Neutron-Deficient Nuclei in the 239,240Pu+48Ca Reactions

Author

F. Sh. Abdullin, K. P. Rykaczewski, Robert Grzywacz, J. H. Hamilton, A. I. Svirikhin, A. A. Voinov, Zibao Gan, N. T. Brewer, Yu. Ts. Oganessian, M. V. Shumeiko, I. V. Shirokovsky, R. N. Sagaidak, A. G. Popeko, Lanqing Ma, A. M. Sukhov, V. G. Subbotin, James B. Roberto, A. V. Karpov, Yu. S. Tsyganov, V. K. Utyonkov, M. G. Itkis, K. Miernik, A. N. Polyakov, A. V. Sabelnikov, M. A. Stoyer, L. Schlattauer, S. N. Dmitriev, N. D. Kovrizhnykh, W. Huang, and Grigory K. Vostokin

Subjects

Materials science, Radiochemistry, Neutron

Published

2019

7. Experimental Study of the 249-251Cf + 48Ca Reactions: Toward the Magic Neutron Number N=184

Author

S. M. Van Cleve, M. G. Itkis, Grigory K. Vostokin, S. N. Dmitriev, Robert Grzywacz, D. C. McInturff, G. D. Owen, M. A. Stoyer, A. G. Popeko, James B. Roberto, A. I. Svirikhin, V. G. Subbotin, E. H. Smith, Rose A. Boll, R. N. Sagaidak, C. S. White, Yu. Ts. Oganessian, A. M. Sukhov, A. A. Voinov, N. T. Brewer, K. Miernik, A. N. Polyakov, K. P. Rykaczewski, Julie G. Ezold, J. H. Hamilton, Nathan J. Sims, N. D. Kovrizhnykh, D. J. Dean, V. K. Utyonkov, L. K. Felker, M. V. Shumeiko, Yu. S. Tsyganov, F. Sh. Abdullin, A. V. Sabelnikov, and I. V. Shirokovsky

Subjects

Physics, Nuclear physics, Neutron number, Magic (programming)

Published

2019

8. New analog electronics for the new challenges in the synthesis of superheavy elements

Author

A. A. Voinov, A. M. Zubareva, A. N. Zubarev, L. Schlattauer, and V. G. Subbotin

Subjects

Physics, Nuclear and High Energy Physics, Radiation, Analogue electronics, 010308 nuclear & particles physics, Preamplifier, System of measurement, Detector, Superheavy Elements, 01 natural sciences, Multiplexer, Atomic and Molecular Physics, and Optics, 0103 physical sciences, Electronic engineering, Radiology, Nuclear Medicine and imaging, 010306 general physics

Abstract

A new series of experiments aimed at the synthesis and study of decay properties of the most neutron-deficient isotopes of element Fl (Z = 114) and of the heaviest isotopes of 118 element is planned at the DGFRS (FLNR JINR). An appropriate registering system is to be implemented to transfer spectrometric data from double-sided silicon strip detector (DSSD). New analog modules were designed that allow to simplify existing multi-channel measurement system and to improve the real-time method of “active correlations” in search for the rare events of SHE formation and decay. The main features of the new modules the 16-channel charge-sensitive preamplifier, the 16-channel analog multiplexer and the 1.25 MSPS 12-bit Parallel ADC are presented.

Published

2016

9. Search for the heaviest atomic nuclei among the products from reactions of mixed-Cf with a Ca48 beam

Author

Robert Grzywacz, I. V. Shirokovsky, A. V. Sabelnikov, M. G. Itkis, A. A. Voinov, S. N. Dmitriev, N. T. Brewer, K. Miernik, F. Sh. Abdullin, A. N. Polyakov, Nathan J. Sims, K. P. Rykaczewski, Julie G. Ezold, S. M. Van Cleve, J. H. Hamilton, G. D. Owen, R. N. Sagaidak, M. V. Shumeiko, A. I. Svirikhin, A. M. Sukhov, E. H. Smith, L. K. Felker, N. D. Kovrizhnykh, V. G. Subbotin, Rose A. Boll, A. G. Popeko, Yu. S. Tsyganov, D. J. Dean, V. K. Utyonkov, C. S. White, Yu. Ts. Oganessian, James B. Roberto, M. A. Stoyer, Grigory K. Vostokin, and D. C. McInturff

Subjects

Physics, Isotope, 010308 nuclear & particles physics, Detector, chemistry.chemical_element, Californium, 01 natural sciences, Recoil separator, Nuclear physics, chemistry, 0103 physical sciences, Atomic nucleus, Irradiation, Decay chain, Nuclear Experiment, 010306 general physics, Beam (structure)

Abstract

The search for new decay chains of oganesson isotopes is presented. The experiment utilized the Dubna Gas Filled Recoil Separator and a highly segmented recoil-decay detection system. The signals from all detectors were analyzed in parallel by digital and analog data acquisition systems. For the first time, a target of mixed californium (51% Cf249, 13% Cf250, and 36% Cf251) recovered from decayed Cf252 sources was produced and irradiated with an intense Ca48 beam. The observation of a new decay chain of Og294 is reported. The prospects for reaching new isotopes Og295,296 are discussed.

Published

2018

10. Neutron-deficient superheavy nuclei obtained in the Pu240+Ca48 reaction

Author

F. Sh. Abdullin, Lanqing Ma, Grigory K. Vostokin, R. N. Sagaidak, S. N. Dmitriev, A. I. Svirikhin, K. P. Rykaczewski, A. M. Sukhov, M. A. Stoyer, M. V. Shumeiko, L. Schlattauer, Robert Grzywacz, J. H. Hamilton, Yu. S. Tsyganov, A. V. Sabelnikov, A. V. Karpov, Zibao Gan, I. V. Shirokovsky, V. K. Utyonkov, K. Miernik, A. G. Popeko, A. N. Polyakov, M. G. Itkis, A. A. Voinov, V. G. Subbotin, N. T. Brewer, N. D. Kovrizhnykh, Yu. Ts. Oganessian, Wenxue Huang, and James B. Roberto

Subjects

Physics, Nuclear physics, 010308 nuclear & particles physics, 0103 physical sciences, Neutron, 010306 general physics, 01 natural sciences

Published

2018

11. EXPERIMENTS ON SYNTHESIS OF SUPERHEAVY NUCLEI 284Fl AND 285Fl IN THE 239,240Pu + 48Ca REACTIONS

Author

Robert Grzywacz, V. K. Utyonkov, K. Miernik, A. N. Polyakov, Grigory K. Vostokin, K. P. Rykaczewski, M. G. Itkis, V. G. Subbotin, A. A. Voinov, N. T. Brewer, J. H. Hamilton, M. A. Stoyer, Yu. S. Tsyganov, James B. Roberto, M. V. Shumeiko, I. V. Shirokovsky, F. Sh. Abdullin, S. Y. Strauss, S. N. Dmitriev, A. V. Sabelnikov, Yu. Ts. Oganessian, R. N. Sagaidak, and A. M. Sukhov

Published

2017

12. RESULTS FROM THE RECENT STUDY OF THE 249-251Cf + 48Ca REACTIONS

Author

Grigory K. Vostokin, M. G. Itkis, James B. Roberto, R. N. Sagaidak, A. M. Sukhov, V. G. Subbotin, K. P. Rykaczewski, M. V. Shumeiko, Yu. Ts. Oganessian, A. V. Sabelnikov, J. H. Hamilton, A. A. Voinov, K. Miernik, F. Sh. Abdullin, N. T. Brewer, A. N. Polyakov, Robert Grzywacz, M. A. Stoyer, Yu. S. Tsyganov, V. K. Utyonkov, I. V. Shirokovsky, and S. N. Dmitriev

Published

2017

13. Molten-salt reactors: new possibilities, problems and solutions

Author

V. A. Khokhlov, A. V. Merzlyakov, A. I. Surenkov, V. G. Subbotin, Victor Ignatiev, O. Feynberg, Valery Afonichkin, M. V. Kormilitsyn, A. Zagnitko, and A. V. Panov

Subjects

Materials science, Molten salt reactor, business.industry, Nuclear engineering, Nuclear power, Spent nuclear fuel, law.invention, Nuclear Energy and Engineering, law, Thermal, Breeder reactor, Graphite, Molten salt, business, Transuranium element

Abstract

The possibilities of competitive development of a liquid-salt reactor with a cavity-type core for developing thorium-uranium breeder reactor and for burning transuranium elements from the spent fuel of power reactors are described. Such a reactor is characterized by fuel-cycle flexibility, since it is capable of operating with a wide spectrum of fuel and raw-materials loads without being stopped or structurally altered. Compared with thermal liquid-salt reactors with a graphite moderator, these reactors have deeply negative temperature coefficients of reactivity (–7·10–5°C–1), and the fuel salt is completely processed in 3–4 years. Such a reactor facility can be incorporated into any strategy for the development of nuclear power.

Published

2012

14. Study of the 249-251Cf + 48Ca reactions: recent results and outlook

Author

Robert Grzywacz, F. Sh. Abdullin, Yu. S. Tsyganov, Yu. Ts. Oganessian, Grigory K. Vostokin, S. N. Dmitriev, K. Miernik, A. N. Polyakov, R. N. Sagaidak, A. A. Voinov, A. V. Sabelnikov, A. M. Sukhov, N. T. Brewer, M. V. Shumeiko, V. G. Subbotin, I. V. Shirokovsky, James B. Roberto, V. K. Utyonkov, K. P. Rykaczewski, J. H. Hamilton, M. A. Stoyer, and M. G. Itkis

Subjects

Physics, History, Computer Science Applications, Education

Published

2018

15. Effectiveness increase of turbine plants of thermal power stations

Author

V. G. Subbotin, Ye. V. Levchenko, V. N. Galatsan, I. I. Kozheshkurt, and V. L. Shvetsov

Subjects

Engineering, Nuclear Energy and Engineering, Steam turbine, business.industry, Mass transfer, Nuclear engineering, Energy Engineering and Power Technology, Mechanical engineering, Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, business, Turbine

Abstract

There is presented the information on the projects developed by the JSC “Turboatom” for the new steam turbines intended for the thermal power stations. There are considered the ways of the operating characteristics enhancement of the turbo-units manufactured earlier.

Published

2009

16. Experiments on the synthesis of superheavy nucleiFl284andFl285in thePu239,240+Ca48reactions

Author

Robert Grzywacz, James B. Roberto, A. A. Voinov, Grigory K. Vostokin, V. G. Subbotin, N. T. Brewer, M. V. Shumeiko, A. V. Sabelnikov, R. N. Sagaidak, Yu. S. Tsyganov, Yuri Oganessian, V. K. Utyonkov, A. M. Sukhov, I. V. Shirokovsky, F. Sh. Abdullin, S. Y. Strauss, K. Miernik, A. N. Polyakov, K. P. Rykaczewski, J. H. Hamilton, S. N. Dmitriev, M. A. Stoyer, and M. G. Itkis

Subjects

Physics, Nuclear and High Energy Physics, Order (ring theory), chemistry.chemical_element, Flerovium, chemistry, Neutron number, Production (computer science), Decay chain, Alpha decay, Atomic physics, Nuclear Experiment, Energy (signal processing), Spontaneous fission

Abstract

Irradiations of $^{239}\mathrm{Pu}$ and $^{240}\mathrm{Pu}$ targets with $^{48}\mathrm{Ca}$ beams aimed at the synthesis of $Z=114$ flerovium isotopes were performed at the Dubna Gas Filled Recoil Separator. A new spontaneously fissioning (SF) isotope $^{284}\mathrm{Fl}$ was produced for the first time in the $^{240}\mathrm{Pu}+^{48}\mathrm{Ca}$ (250 MeV) and $^{239}\mathrm{Pu}+^{48}\mathrm{Ca}$ (245 MeV) reactions. The cross section of the $^{239}\mathrm{Pu}(^{48}\mathrm{Ca},3n)^{284}\mathrm{Fl}$ reaction channel was about 20 times lower than predicted by theoretical models and about 50 times lower than the maximum fusion-evaporation cross section for the $3n$ and $4n$ channels measured in the $^{244}\mathrm{Pu}+^{48}\mathrm{Ca}$ reaction. In the $^{240}\mathrm{Pu}+^{48}\mathrm{Ca}$ experiment, performed at 245 MeV in order to maximize the $3n$-evaporation channel, three decay chains of $^{285}\mathrm{Fl}$ were detected. The $\ensuremath{\alpha}$-decay energy of $^{285}\mathrm{Fl}$ was measured for the first time and decay properties of its descendants $^{281}\mathrm{Cn}, ^{277}\mathrm{Ds}, ^{273}\mathrm{Hs}, ^{269}\mathrm{Sg}$, and $^{265}\mathrm{Rf}$ were determined with higher accuracy. The assignment of SF events observed during the irradiation of the $^{240}\mathrm{Pu}$ target with a 250 MeV $^{48}\mathrm{Ca}$ beam to $^{284}\mathrm{Fl}$ decay is presented and discussed. The cross sections at both $^{48}\mathrm{Ca}$ energies are similar and exceed that observed in the reaction with the lighter isotope $^{239}\mathrm{Pu}$ by a factor of 10. The decay properties of the synthesized nuclei and their production cross sections indicate a rapid decrease of stability of superheavy nuclei as the neutron number decreases from the predicted magic neutron number $N=184$.

Published

2015

17. Connecting the 'Hot Fusion Island' to the Nuclear Mainland: Search for 283,284,285Fl Decay Chains

Author

Yu. Ts. Oganessian, A. A. Voinov, N. T. Brewer, F. Sh. Abdullin, Yu. S. Tsyganov, M. V. Shumeiko, K. P. Rykaczewski, Grigory K. Vostokin, A. V. Sabelnikov, James B. Roberto, V. K. Utyonkov, R. N. Sagaidak, V. G. Subbotin, I. V. Shirokovsky, A. M. Sukhov, J. H. Hamilton, Robert Grzywacz, Roger Henderson, K. Miernik, A. N. Polyakov, M. A. Stoyer, M. G. Itkis, and S. N. Dmitriev

Subjects

Nuclear physics, Physics, Fusion, Oceanography, Mainland, Decay chain

Published

2015

18. Experimental investigation of the physical properties of salt melts containing sodium and lithium fluorides and beryllium difluoride

Author

A. V. Merzlyakov, Yu. V. Golovatov, A. V. Panov, V. G. Subbotin, and V. V. Ignat’ev

Subjects

Molten salt reactor, Nuclear fuel, Inorganic chemistry, Difluoride, chemistry.chemical_element, Lithium fluoride, Actinide, Mole fraction, law.invention, chemistry.chemical_compound, Nuclear Energy and Engineering, chemistry, law, Lithium, Beryllium

Abstract

Experimental measurements of the basic physical properties of the melt NaF-LiF-BeF2 are presented as validation of the concept of a molten-salt reactor for burning actinides from spent fuel from light-water reactors. Compositions which are characterized by the minimal molar fraction LiF 15–17% and BeF2 25–27% and meet the special requirements for a fuel salt for the concept under study are found. The melts of the fluorides of three metals have an acceptable melting temperature (

Published

2006

19. Investigation of the corrosion resistance of nickel-based alloys in fluoride melts

Author

V. V. Ignat’ev, V. S. Uglov, A. D. Toropov, A. V. Panov, Ivan Gnidoi, Vladimir Fedulov, A. L. Bove, Valery Afonichkin, V. V. Sagaradze, A. I. Surenkov, and V. G. Subbotin

Subjects

Materials science, Molten salt reactor, Metallurgy, technology, industry, and agriculture, chemistry.chemical_element, Compatibility (geochemistry), Nuclear reactor, equipment and supplies, complex mixtures, Corrosion, law.invention, Nickel, chemistry.chemical_compound, Nuclear Energy and Engineering, chemistry, Impurity, law, Molten salt, Fluoride

Abstract

The results of tests of the compatibility of nickel-based alloys and metal-fluoride melts are generalized for molten-salt reactors.

Published

2006

20. New elements from Dubna

Author

A. M. Sukhov, N. J. Stoyer, K. Subotic, J. B. Patin, A. N. Polyakov, Yu. S. Tsyganov, Valery Zagrebaev, A. N. Mezentsev, V. K. Utyonkov, M. A. Stoyer, S. Iliev, A. A. Voinov, S. L. Bogomolov, M. G. Itkis, D. A. Shaughnessy, J. F. Wild, Yu. Ts. Oganessian, G. G. Gulbekian, R. W. Lougheed, I. V. Shirokovsky, F. Sh. Abdullin, P. A. Wilk, V. G. Subbotin, G. V. Buklanov, Kenton J. Moody, J. M. Kenneally, Yu. V. Lobanov, and B. N. Gikal

Subjects

Physics, Excitation function, Nuclear and High Energy Physics, Isotope, Neutron number, Nuclear fusion, Neutron, Nuclide, Atomic physics, Radioactive decay, Beta-decay stable isobars

Abstract

We have studied the dependence of the production cross-sections of the isotopes 282,283112 and 286–288114 on the excitation energy of the compound nuclei 286112 and 290114. The maximum cross-sections of the xn-evaporation channels for the reaction 238U(48Ca,xn)286-x 112 were measured to be: σ 3n = 2.5 -1.1 +1.8 pb and σ 4n = 0.6 -0.5 +1.6 pb; for the reaction 242Pu(48Ca,xn)290-x 114: σ 2n ∼ 0.5 pb, σ 3n = 3.6 -1.7 +3.4 pb and σ 4n = 4.5 -1.9 +3.6 pb. In the reaction 233U(48Ca, 2-4n)277–279 112 we measured an upper cross-section limit of σ xn ≤ 0.6 pb. An increase of σ ER in the reactions of actinide targets with 48Ca can be due to the expected increase of the survivability of the excited compound nucleus upon closer approach to the closed neutron shell N = 184. The observed nuclear decay properties of the nuclides with Z = 104–118 are compared with theoretical nuclear mass calculations and the systematic trends of α-decay properties. As a whole, they give a consistent pattern of decay of the 18 even-Z neutron-rich nuclides with Z = 104–118 and N = 163–177.

Published

2005

21. Detection system for heavy element research: present status

Author

A. N. Polyakov, S. Iliev, Yu. S. Tsyganov, V.I. Tomin, V. G. Subbotin, A. M. Sukhov, and A. A. Voinov

Subjects

Physics, Nuclear and High Energy Physics, Silicon, Physics::Instrumentation and Detectors, Acoustics, Detector, chemistry.chemical_element, Signal, Recoil separator, Nuclear physics, chemistry, Position (vector), Heavy element, Instrumentation

Abstract

PC-based detection system for heavy element research at the Dubna Gas-filled Recoil Separator is presented. It allows to operate with the experimental data obtained from the detection system of GFRS which consists of 12-strip silicon position sensitive detector and two multiwire low-pressure proportional gaseous chambers to generate time-of-flight signal of incoming charge particles. Special attention is payed to the detection of genetically linked recoil-alpha sequences in a real-time mode. The results of the experiment aimed at the synthesis of new Z=113–115 elements with the mentioned technique are presented in brief.

Published

2004

22. Synthesis of Superheavy Nuclei in48Ca-Induced Reactions

Author

K. Subotic, A. N. Mezentsev, V. K. Utyonkov, S. L. Bogomolov, A. N. Polyakov, Kenton J. Moody, J. B. Patin, D. A. Shaughnessy, Yu. S. Tsyganov, G. V. Buklanov, J. F. Wild, N. J. Stoyer, Yu. Ts. Oganessian, Valery Zagrebaev, V. G. Subbotin, M. A. Stoyer, A. M. Sukhov, J. M. Kenneally, I. V. Shirokovsky, Yu. V. Lobanov, F. Sh. Abdullin, G. G. Gulbekian, M. G. Itkis, B. N. Gikal, R. W. Lougheed, S. Iliev, and A. A. Voinov

Subjects

Physics, Nuclear physics, Physics and Astronomy (miscellaneous), Isotope, Nuclide, Superheavy Elements, Island of stability

Abstract

neutron-rich isotopes 242,244 Pu, 243 Am, 245,248 Cm and 249 Cf with 48 Ca projectiles. The decay properties of the synthesized nuclei are consistent with the consecutive α-decays originating in the decays of parent nuclides 286,287,288,289 114, 287,288 115, 290,291,293 116 and 294 118 produced in the 2n- to 5n-evaporation channels. The present observations can be considered to be experimental evidence of the existence of the “island of stability” of superheavy elements.

Published

2004

23. Synthesis of superheavy nuclei in the reactions of 244Pu and 248Cm with 48Ca

Author

N. J. Stoyer, A. N. Polyakov, Yu. Ts. Oganessian, G. G. Gulbekian, M. G. Itkis, V. G. Subbotin, A. M. Sukhov, O. V. Ivanov, B. N. Gikal, Kenton J. Moody, K. Subotic, V. K. Utyonkov, C. A. Laue, A. A. Voinov, Yu. S. Tsyganov, S. Iliev, S. L. Bogomolov, M. A. Stoyer, I. V. Shirokovsky, F. Sh. Abdullin, R. W. Lougheed, J. F. Wild, A. N. Mezentsev, G. V. Buklanov, and Yu. V. Lobanov

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Hadron, Evaporation, Nuclear fusion, Nuclide, Atomic number, Superheavy Elements, Atomic physics, Island of stability, Spontaneous fission

Abstract

This paper presents results of the experiments aimed at producing long-lived superheavy elements located near the spherical-shell closures with Z ⩾ 114 and N ⩾ 172 in the 244Pu + 48Ca and 248Cm + 48Ca reactions. The large measured α-particle energies of the newly observed nuclei, together with the long decay times and spontaneous fission terminating the chains, offer evidence of the decay of nuclei with high atomic numbers. The decay properties of the synthesized nuclei are consistent with the consecutive α-decays originating from the parent nuclides 288, 289114 and 292116, produced in the 3n and 4n evaporation channels with cross-sections of about a picobarn. The present observations can be considered as experimental evidence of the existence of the “island of stability” of superheavy elements.

Published

2002

24. Study of the properties of the superheavy nuclei Z = 117 produced in the 249Bk + 48Ca reaction

Author

F. Sh. Abdullin, M. A. Stoyer, I. V. Shirokovsky, K. P. Rykaczewski, J. M. Gostic, A. A. Voinov, A. V. Ramayya, Grigory K. Vostokin, M. V. Shumeiko, Julie G. Ezold, Robert Grzywacz, Kenton J. Moody, M. A. Ryabinin, J. H. Hamilton, J. Binder, Yu. S. Tsyganov, D. A. Shaughnessy, K. Miernik, A. N. Polyakov, C.W. Alexander, K. Felker, Roger Henderson, V. K. Utyonkov, David Miller, R. N. Sagaidak, A. M. Sukhov, James B. Roberto, Yu. Ts. Oganessian, M. G. Itkis, V. G. Subbotin, S. N. Dmitriev, N. J. Stoyer, and Rose A. Boll

Subjects

Nuclear physics, Isotope, Chemistry, Projectile, Physics, QC1-999, Atomic physics, Beam (structure), Excitation, Spectral line

Abstract

The reaction of 249 Bk with 48 Ca have been reinvestigated to provide new evidence for the discovery of element 117 on a larger number of events. The experiments were performed at five projectile energies and with a total beam dose of 48 Ca of about 4.6×10 19 . Two isotopes 293,294 117 were synthesized in the 249 Bk+ 48 Ca reaction, providing excitation functions and α-decay spectra of the produced isotopes that establishes these nuclei to be the products of the 4n- and 3n-evaporation channels, respectively. Decay properties of 293,294 117 and of all the daughter products agree with the data of the experiment in which these nuclei were synthesized for the first time in 2010. The new 289 115 events, populated by α decay of 293 117, demonstrate the same decay properties as those observed for 289 115 produced in the 243 Am( 48 Ca,2n) reaction thus providing cross- bombardment evidence. In addition, a single decay of 294 118 was observed from the reaction with 249 Cf - a result of the in-growth of 249 Cf in the 249 Bk target.

Published

2014

25. [Untitled]

Author

Yu. N. Zuev, D. Yu. Chuvilin, K. F. Grebenkin, A. V. Panov, V. G. Subbotin, V. V. Shatalov, and V. P. Mashirev

Subjects

Nuclear fuel, Hydrogen, Chemistry, Nuclear engineering, Radiochemistry, chemistry.chemical_element, Plutonium hydride, Plutonium, Trifluoride, chemistry.chemical_compound, Nuclear Energy and Engineering, Plutonium dioxide, Experimental work, Plutonium-239

Abstract

Experimental work on transferring compact weapons plutonium by pyrochemical methods into its compounds was generalized. Powdered plutonium dioxide was obtained by interaction with moist air at 480–500°C. PuH3 was synthesized by interaction of the metal with hydrogen at 280°C. PuF3 was formed in an interaction of dioxides with HF and H2. The reaction of plutonium hydride with HF also resulted in plutonium trifluoride. PuF4 was synthesized by interaction of PuO2 with HF. In summary, compact plutonium can be transfered by water-free methods into its powdered compounds, which can be used in investigations for developing new types of fuel elements for power reactors. 6 figures, 2 tables, 16 references.

Published

2001

26. Synthesis of superheavy nuclei in 48Ca+244Pu interactions

Author

G. G. Gulbekian, J. F. Wild, V. K. Utyonkov, Yu. Ts. Oganessian, A. M. Sukhov, F. Sh. Abdullin, G.V. Buklanov, Yu. S. Tsyganov, R. W. Lougheed, B. N. Gikal, K. Subotic, A. N. Polyakov, A. N. Mezentsev, S. L. Bogomolov, M. A. Stoyer, M. G. Itkis, I. V. Shirokovsky, O. V. Ivanov, Yu. V. Lobanov, Kenton J. Moody, N. J. Stoyer, V. G. Subbotin, and S. Iliev

Subjects

Physics, Nuclear and High Energy Physics, Nuclear Theory, Actinide, Superheavy Elements, Atomic and Molecular Physics, and Optics, Island of stability, Nuclear physics, Nuclide, Atomic number, Atomic physics, Nuclear Experiment, Order of magnitude, Spontaneous fission

Abstract

This article reports the results of experiments aimed at producing hypothetical long-lived superheavy elements located near the spherical-shell closures with Z≥114 and N≥72. For the synthesis of superheavy nuclei, we used a combination of neutron-rich reaction partners, with a 244Pu target and a 48Ca projectile. The sensitivity of the present experiment exceeded by more than two orders of magnitude previous attempts at synthesizing superheavy nuclides in reactions of 48Ca projectiles with actinide targets. We observed new decay sequences of genetically linked alpha decays terminated by spontaneous fission. The high measured alpha-particle energies, together with the long decay times and spontaneous fission terminating the chains, offer evidence for the decay of nuclei with high atomic numbers. The decay properties of the synthesized nuclei are consistent with the consecutive alpha decays originating from the parent nuclides 288,289114, produced in the 3n-and 4n-evaporation channels with cross sections of about a picobarn. The present observations can be considered experimental evidence for the existence of the “island of stability” of superheavy elements and are discussed in terms of modern theoretical approaches.

Published

2000

27. Synthesis of Superheavy Nuclei in the48Ca+244PuReaction

Author

N. J. Stoyer, G. G. Gulbekian, S. Iliev, J. F. Wild, Yu. Ts. Oganessian, G.V. Buklanov, Yu. S. Tsyganov, B. N. Gikal, K. Subotic, M. A. Stoyer, Kenton J. Moody, A. N. Polyakov, M. G. Itkis, A. N. Mezentsev, S. L. Bogomolov, V. G. Subbotin, Yu. V. Lobanov, A. M. Sukhov, V. K. Utyonkov, I. V. Shirokovsky, F. Sh. Abdullin, and R. W. Lougheed

Subjects

Physics, Nuclear reaction, Atom, General Physics and Astronomy, Atomic number, Alpha decay, Atomic physics, Energy (signal processing), Radioactive decay, Spontaneous fission

Abstract

In bombardment of ${}^{244}\mathrm{Pu}$ with ${}^{48}\mathrm{Ca}$, we observed a decay sequence consisting of an implanted heavy atom, three subsequent $\ensuremath{\alpha}$ decays, and a spontaneous fission (SF), all correlated in time and position. The measured $\ensuremath{\alpha}$ energies and corresponding time intervals were ${E}_{\ensuremath{\alpha}}\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}9.71$ MeV ( $\ensuremath{\Delta}t\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}30.4$ s), 8.67 MeV ( $\ensuremath{\Delta}t\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}15.4$ min), and 8.83 MeV ( $\ensuremath{\Delta}t\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}1.6$ min); for the SF ( $\ensuremath{\Delta}t\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}16.5$ min), the total deposited energy was approximately 190 MeV. The $\ensuremath{\alpha}$-particle energies together with the decay times and SF terminating the chain offer evidence of the decay of nuclei with high atomic numbers. This decay chain is a good candidate for originating from the $\ensuremath{\alpha}$ decay of the parent nucleus ${}^{289}114$, produced with a cross section of about 1 pb.

Published

1999

28. Synthesis of plutonium trifluoride from weapons plutonium as a potential fuel for power reactors

Author

N. A. Novoselov, V. V. Shatalov, V. A. Simonenko, A. D. Maksimov, V. G. Subbotin, K. F. Grebenkin, L. N. Lokhtin, O. I. Kozlov, D. Yu. Chuvilin, V. M. Berezkin, A. V. Panov, V. P. Mashirev, Yu. N. Zuev, V. I. Lobanov, and E. N. Zvonarev

Subjects

Trifluoride, Nuclear reprocessing, Nuclear Energy and Engineering, Nuclear fuel, Chemistry, Nuclear engineering, chemistry.chemical_element, Power reactor, Nuclear weapon, MOX fuel, Plutonium-239, Plutonium

Published

1997

29. Focal plane detector of the Dubna gas-filled recoil separator

Author

D.V. Vacatov, A. N. Polyakov, A. N. Mezentsev, S. Iliev, V. G. Subbotin, Yu. S. Tsyganov, and A. M. Sukhov

Subjects

Nuclear physics, Physics, Nuclear reaction, Nuclear and High Energy Physics, Data acquisition, Detector, Nuclear fusion, Nuclide, Electron, Ground state, Instrumentation, Signal

Abstract

The focal plane detector of the Dubna gass-filled recoil separator has been developed to study fusion reaction products from heavy-ion-induced nuclear reactions in the region of heavy nuclei with Z > 104. It consists of a 12 strip position-sensitive silicon detector to measure the energy/position of implanted nuclides and decay products and two low-pressure proportional chambers to generate a TOF signal. Additional information on ΔE from the STOP chamber is stored to provide an opportunity to discriminate alpha decays to the ground state of daughter product from the ones accompanied by conversion electron emission. The detector was successfully applied for the nuclear reactions which led to the discovery of new nuclides with Z = 108, 110 (A = 267, 273). An appropriate data acquisition system is described.

Published

1997

30. NEW RESULTS FOR ELEMENTS 115, 117, AND 118 PRODUCED IN THE REACTIONS 243Am+48Ca AND 249BK/249Cf+48Ca

Author

Grigory K. Vostokin, J. Binder, K. Miernik, A. N. Polyakov, Yu. S. Tsyganov, R. N. Sagaidak, F. Sh. Abdullin, A. V. Ramayya, C.W. Alexander, A. M. Sukhov, M. V. Shumeiko, J. M. Gostic, M. A. Ryabinin, D. A. Shaughnessy, Roger Henderson, M. A. Stoyer, Robert Grzywacz, K. P. Rykaczewski, Julie G. Ezold, M. G. Itkis, V. K. Utyonkov, J. H. Hamilton, K. Felker, David Miller, K. J. Moody, I. V. Shirokovsky, Yu. Ts. Oganessian, N. J. Stoyer, S. N. Dmitriev, A. A. Voinov, James B. Roberto, V. G. Subbotin, and Rose A. Boll

Published

2013

31. NEW INSIGHTS INTO THE DISCOVERIES OF ELEMENTS 113, 115 AND 117

Author

Sergey N. Dmitriev, Grigory K. Vostokin, D. A. Shaughnessy, M. A. Stoyer, Akunuri Ramayya, M. G. Itkis, Yuri S. Tsyganov, A. N. Polyakov, V. K. Utyonkov, V. G. Subbotin, K. P. Rykaczewski, James B. Roberto, Joseph H. Hamilton, N. J. Stoyer, A. A. Voinov, R. N. Sagaidak, F. S. Abdullin, Yuri Oganessian, A. M. Sukhov, I. V. Shirokovsky, Roger Henderson, J. M. Gostic, and Kenton J. Moody

Published

2013

32. Experimental studies of the249Bk + 48Ca reaction including decay properties and excitation function for isotopes of element 117, and discovery of the new isotope277Mt

Author

K. Felker, Yu. S. Tsyganov, D. A. Shaughnessy, Yu. Ts. Oganessian, K. J. Moody, A. V. Ramayya, Grigory K. Vostokin, Roger Henderson, K. P. Rykaczewski, J. M. Gostic, C.W. Alexander, M. V. Shumeiko, Rose A. Boll, Julie G. Ezold, V. G. Subbotin, M. A. Stoyer, N. J. Stoyer, James B. Roberto, M. A. Ryabinin, F. Sh. Abdullin, J. Binder, K. Miernik, A. N. Polyakov, V. K. Utyonkov, J. H. Hamilton, David Miller, R. N. Sagaidak, I. V. Shirokovsky, A. M. Sukhov, Robert Grzywacz, M. G. Itkis, S. N. Dmitriev, and A. A. Voinov

Subjects

Physics, Excitation function, Nuclear and High Energy Physics, Magic number (programming), Neutron number, Production (computer science), Decay chain, Alpha decay, Atomic physics, Excitation, Spontaneous fission

Abstract

Studies of superheavy nuclei produced in the ${}^{249}$Bk + ${}^{48}$Ca reaction were performed using the Dubna Gas Filled Recoil Separator. The cross section for the production of ${}^{293}$117 and ${}^{294}$117 isotopes was measured at five excitation energies of the ${}^{297}$117 compound nucleus ranging from 30 to 48 MeV and yielding maximum values of 1.1${}_{\ensuremath{-}0.6}^{+1.2}$ pb for the $3n$ and 2.4${}_{\ensuremath{-}1.4}^{+3.3}$ pb for the $4n$ reaction channels. Alpha emission from ${}^{281}$Rg competing with spontaneous fission ($\ensuremath{\alpha}$/SF decay probability 1:9) was observed for the first time leading to the identification of the new isotope ${}^{277}$Mt (${T}_{\mathrm{SF}}\ensuremath{\approx}5$ ms). The measured decay properties are in good agreement with those expected based on the properties of neighboring even-$Z$ and odd-$Z$ nuclei. The $\ensuremath{\alpha}$ energies and half-lives of odd-$Z$ isotopes observed in the ${}^{293}$117 and ${}^{294}$117 decay chains together with results obtained for lower-$Z$ superheavy nuclei demonstrate enhanced stability with increasing neutron number toward the predicted new magic number $N=184$.

Published

2013

33. Synthesis and study of decay properties of the doubly magic nucleus270Hs in the226Ra +48Ca reaction

Author

Yu. V. Lobanov, F. Sh. Abdullin, A. A. Voinov, Roger Henderson, R. N. Sagaidak, K. Subotic, A. M. Sukhov, A. N. Mezentsev, D. A. Shaughnessy, M. A. Ryabinin, Grigory K. Vostokin, M. G. Itkis, Alexander Yakushev, N. J. Stoyer, P. A. Wilk, V. G. Subbotin, Andreas Türler, Yu. Ts. Oganessian, K. J. Moody, R. Graeger, I. V. Shirokovsky, Yu. S. Tsyganov, S. N. Dmitriev, M. A. Stoyer, A. N. Polyakov, S. L. Nelson, and V. K. Utyonkov

Subjects

Physics, Nuclear and High Energy Physics, Crystallography, Nuclear magnetic resonance, medicine.anatomical_structure, medicine, Production (computer science), MAGIC (telescope), Alpha decay, Nucleus, Energy (signal processing), Lower limit, Spontaneous fission

Abstract

Production and decay of the isotopes of Hs were studied in the ${}^{226}$Ra+${}^{48}$Ca reaction at beam energies ${E}_{\mathrm{lab}}=229$, 234, and 241 MeV. At the ${E}_{\mathrm{lab}}=234$ MeV energy, the maximum of the 4$n$-evaporation channel of the reaction, six identical $\ensuremath{\alpha}$-SF decay chains of the nucleus ${}^{270}$Hs were detected corresponding to a cross section of ${\ensuremath{\sigma}}_{4n}={16}_{\ensuremath{-}7}^{+13}$ pb. At the other ${}^{48}$Ca energies, no Hs isotopes were observed. Nuclei of ${}^{270}$Hs undergo $\ensuremath{\alpha}$ decay with a ${Q}_{\ensuremath{\alpha}}=9.15\ifmmode\pm\else\textpm\fi{}0.08$ MeV and the half-life of the daughter spontaneous fission (SF) isotope ${}^{266}$Sg is 0.28${}_{\ensuremath{-}0.08}^{+0.19}$ s, in good agreement with the data previously observed in the ${}^{248}$Cm(${}^{26}$Mg,4$n$)${}^{270}$Hs reaction. The partial $\ensuremath{\alpha}$-decay half-life of ${}^{270}$Hs was measured for the first time: ${T}_{\ensuremath{\alpha}}=7.{6}_{\ensuremath{-}2.2}^{+4.9}$ s. For the spontaneous fission, we determined a lower limit ${T}_{\mathrm{SF}}\ensuremath{\geqslant}10$ s. Decay properties of ${}^{270}$Hs corroborate theoretical predictions of its relatively high stability caused by the effect of the deformed shells at $Z=108$ and $N=162$.

Published

2013

34. α decay of110273: Shell closure atN=162

Author

G. V. Buklanov, Kenton J. Moody, R. W. Lougheed, V. G. Subbotin, I. V. Shirokovsky, Yu. V. Lobanov, F. Sh. Abdullin, J. Rigol, Yu.A. Lazarev, Yu. S. Tsyganov, B. N. Gikal, K. Subotic, A. M. Sukhov, J. F. Wild, Yu. Ts. Oganessian, S. Iliev, A. N. Polyakov, A. N. Mezentsev, V. K. Utyonkov, and V. B. Kutner

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, SHELL model, Shell (structure), 01 natural sciences, Closure (mathematics), 0103 physical sciences, Production (computer science), Neutron, Alpha decay, Atomic physics, 010306 general physics, Energy (signal processing)

Abstract

In bombardments of $^{244}\mathrm{Pu}$ with $^{34}\mathrm{S}$ we discovered the \ensuremath{\alpha}-decaying nuclide $^{273}110$. We conducted an extensive off-line search of the raw data for event sequences which fit the expected pattern of implantation in a position-sensitive detector and subsequent decay of $^{273}110$ and its descendants. We observed one three-member sequence of genetically linked \ensuremath{\alpha} decays, resulting in ${\mathit{E}}_{\mathrm{\ensuremath{\alpha}}}$=11.35 MeV, a half-life of 0.${3}_{\mathrm{\ensuremath{-}}0.2}^{+1.3}$ ms, and a production cross section of about 0.4 pb for $^{273}110$. Other possible $^{273}110$ event chains were also observed. The measured \ensuremath{\alpha}-particle energy for the N=163 nuclide $^{273}110$ provides direct evidence for a neutron shell closure at N=162. \textcopyright{} 1996 The American Physical Society.

Published

1996

35. Investigation of the243Am+48Careaction products previously observed in the experiments on elements 113, 115, and 117

Author

Grigory K. Vostokin, Yu. Ts. Oganessian, S. N. Dmitriev, A. V. Ramayya, D. A. Shaughnessy, James B. Roberto, K. P. Rykaczewski, I. V. Shirokovsky, N. J. Stoyer, V. K. Utyonkov, V. G. Subbotin, F. Sh. Abdullin, Roger Henderson, J. H. Hamilton, Yu. S. Tsyganov, R. N. Sagaidak, J. M. Gostic, A. M. Sukhov, A. A. Voinov, M. A. Stoyer, M. G. Itkis, Kenton J. Moody, and A. N. Polyakov

Subjects

Physics, Nuclear reaction, Nuclear and High Energy Physics, Production (computer science), Decay chain, Alpha decay, Atomic physics, Long chain, Energy (signal processing), Recoil separator, Excitation

Abstract

Results from the production and decay properties of element 115 nuclei observed using the reaction ${}^{243}\mathrm{Am}+{}^{48}\mathrm{Ca}$ at various beam energies between November 1, 2010, and February 26, 2012, at the Dubna Gas Filled Recoil Separator are presented. This long-running experiment with a total beam dose of $3.3\ifmmode\times\else\texttimes\fi{}{10}^{19}$ and carried out in the excitation energy range ${E}^{*}=31$--47 MeV of the ${}^{291}$115 compound nucleus resulted in observation of three isotopes of element 115 with masses 287, 288, and 289. The 28 detected decay chains of ${}^{288}$115 show that this isotope is produced with the maximum probability at ${E}^{*}=34.0$--38.3 MeV with a corresponding cross section of ${\ensuremath{\sigma}}_{3n}=8.{5}_{\ensuremath{-}3.7}^{+6.4}$ pb. The four events attributed to the isotope ${}^{289}$115 that decays via a short $\ensuremath{\alpha}\ensuremath{\rightarrow}\ensuremath{\alpha}\ensuremath{\rightarrow}\text{SF}$ chain could be detected only at the lowest excitation energy ${E}^{*}=31$--36 MeV, in accordance with what could be expected for the 2$n$-evaporation channel of the reaction. The decay characteristics of this nuclide were established earlier (2010) and more recently (2012) in the reaction ${}^{249}$Bk(${}^{48}$Ca,4$n$)${}^{293}$117 and following $\ensuremath{\alpha}$ decay to ${}^{289}$115. At the energy ${E}^{*}=44.8\ifmmode\pm\else\textpm\fi{}2.3$ MeV we observed only a single long chain of the isotope ${}^{287}$115. The decay properties of nuclei starting at ${}^{288}$115 and ${}^{287}$115 isotopes obtained in the present work reproduce in full the results of the first experiment of 2003 that reported the discovery of elements 115 and 113. The excitation functions of the production of the isotopes of element 115 and observation of the isotope ${}^{289}$115 in cross-bombardment reactions with the targets of ${}^{243}$Am and ${}^{249}$Bk provide additional evidence of the identification of the nuclei of elements 115 and 113. The experiments were carried out using the ${}^{48}$Ca beam of the U400 cyclotron of the Flerov Laboratory of Nuclear Reactions, JINR.

Published

2013

36. New Nuclide267108 Produced by the238U+S34Reaction

Author

V. B. Kutner, Yu.A. Lazarev, D. V. Vakatov, E. K. Hulet, R. W. Lougheed, Kenton J. Moody, I.M. Sedykh, S. Iliev, A. N. Mezentsev, Yu. S. Tsyganov, V. K. Utyonkov, I. V. Shirokovsky, J. F. Wild, F. Sh. Abdullin, Yu. Ts. Oganessian, J. Rigol, G. V. Buklanov, B. N. Gikal, A. N. Polyakov, V. G. Subbotin, A. M. Sukhov, and Yu. V. Lobanov

Subjects

Nuclear physics, Physics, General Physics and Astronomy, Silicon detector, Production (computer science), Alpha decay, Nuclide, Energy (signal processing), Spontaneous fission

Abstract

In bombardments of ${}^{238}$U targets with 186-MeV ${}^{34}$S projectiles we discovered the $\ensuremath{\alpha}$-decaying nuclide ${}^{267}$108 with a half-life of ${19}_{\ensuremath{-}10}^{+29}$ ms, ${E}_{\ensuremath{\alpha}}\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}9.74$ to 9.87 MeV, and a production cross section of about 2.5 pb. The new nuclide was identified by measuring correlations in energy, time, and position to establish genetic links between its implantation in a position-sensitive silicon detector and subsequent $\ensuremath{\alpha}$ decay followed by $\ensuremath{\alpha}$ decays of known descendant nuclides.

Published

1995

37. Production and decay of the heaviest nuclei (293,294)117 and (294)118

Author

Yu Ts, Oganessian, F Sh, Abdullin, C, Alexander, J, Binder, R A, Boll, S N, Dmitriev, J, Ezold, K, Felker, J M, Gostic, R K, Grzywacz, J H, Hamilton, R A, Henderson, M G, Itkis, K, Miernik, D, Miller, K J, Moody, A N, Polyakov, A V, Ramayya, J B, Roberto, M A, Ryabinin, K P, Rykaczewski, R N, Sagaidak, D A, Shaughnessy, I V, Shirokovsky, M V, Shumeiko, M A, Stoyer, N J, Stoyer, V G, Subbotin, A M, Sukhov, Yu S, Tsyganov, V K, Utyonkov, A A, Voinov, and G K, Vostokin

Abstract

Two years after the discovery of element 117, we undertook a second campaign using the (249)Bk+(48)Ca reaction for further investigations of the production and decay properties of the isotopes of element 117 on a larger number of events. The experiments were started in the end of April 2012 and are still under way. This Letter presents the results obtained in 1200 hours of an experimental run with the beam dose of (48)Ca of about 1.5×10(19) particles. The (249)Bk target was irradiated at two energies of (48)Ca that correspond to the maximum probability of the reaction channels with evaporation of three and four neutrons from the excited (297)117. In this experiment, two decay chains of (294)117 (3n) and five decay chains of (293)117 (4n) were detected. In the course of the long-term work, (249)Cf-the product of decay of (249)Bk (330 d)-is being accumulated in the target. Consequently, in the present experiment, we also detected a single decay of the known isotope (294)118 that was produced during 2002-2005 in the reaction (249)Cf((48)Ca,3n)(294)118. The obtained results are compared with the data from previous experiments. The experiments are carried out in the Flerov Laboratory of Nuclear Reactions, Joint Institute for Nuclear Research, using the heavy-ion cyclotron U400.

Published

2012

38. New Insights into theAm243+Ca48Reaction Products Previously Observed in the Experiments on Elements 113, 115, and 117

Author

M. G. Itkis, D. A. Shaughnessy, K. P. Rykaczewski, Yu. S. Tsyganov, V. G. Subbotin, A. V. Ramayya, V. K. Utyonkov, I. V. Shirokovsky, Kenton J. Moody, A. A. Voinov, R. N. Sagaidak, A. N. Polyakov, James B. Roberto, Yuri Oganessian, A. M. Sukhov, J. M. Gostic, F. Sh. Abdullin, Roger Henderson, Grigory K. Vostokin, M. A. Stoyer, Joseph H. Hamilton, and S. N. Dmitriev

Subjects

Physics, Excitation function, Product (mathematics), General Physics and Astronomy, Production (computer science), Decay chain, Alpha decay, Atomic physics, Nuclear Experiment, Energy (signal processing), Excitation

Abstract

Results of a new series of experiments on the study of production cross sections and decay properties of the isotopes of element 115 in the reaction $^{243}\mathrm{Am}+^{48}\mathrm{Ca}$ are presented. Twenty-one new decay chains originating from $^{288}115$ were established as the product of the $3n$-evaporation channel by measuring the excitation function at three excitation energies of the compound nucleus $^{291}115$. The decay properties of all newly observed nuclei are in full agreement with those we measured in 2003. At the lowest excitation energy ${E}^{*}=33\text{ }\text{ }\mathrm{MeV}$, for the first time we registered the product of the $2n$-evaporation channel, $^{289}115$, which was also observed previously in the reaction $^{249}\mathrm{Bk}+^{48}\mathrm{Ca}$ as the daughter nucleus of the decay of $^{293}117$. The maximum cross section for the production of $^{288}115$ is found to be 8.5 pb at ${E}^{*}\ensuremath{\approx}36\text{ }\text{ }\mathrm{MeV}$.

Published

2012

39. Observation of enhanced nuclear stability near the 162 neutron shell

Author

Yu.A. Lazarev, Yu. V. Lobanov, I. V. Shirokovsky, F. Sh. Abdullin, R. W. Lougheed, B. N. Gikal, Kenton J. Moody, I.M. Sedykh, A. M. Sukhov, V. G. Subbotin, J.H. McQuaid, J. F. Wild, Yu. Ts. Oganessian, G.V. Buklanov, S. Iliev, Yu. S. Tsyganov, E.K. Hulet, V. E. Zhuchko, A. N. Mezentsev, A. N. Polyakov, and V. K. Utyonkov

Subjects

Nuclear reaction, Isotope, Chemistry, Mechanical Engineering, Metals and Alloys, Alpha particle, Nuclear physics, Mechanics of Materials, Materials Chemistry, Neutron, Nuclide, Alpha decay, Radioactive decay, Spontaneous fission

Abstract

In bombardments of 248Cm with 22Ne we discovered two new isotopes, 265106 and 266106, by establishing genetic links between α decays of the 106 nuclides and spontaneous fission (SF) or α decays of the daughter (or granddaughter) nuclides. For 266106 we measured Eα = 8.63 ± 0.05 MeV followed by the SF decay of 262104 for which we measured a half-life value of 1.2+1.00.5 s. For 265106 we measured Eα = 8.71–8.91 MeV. We estimated α half-lives of 10–30 s for 266106 and 2–30 s for 265106 with SF branches of approximately 50% or less. The decay properties of 266106 indicate a large enhancement in the SF stability of this N = 160 nuclide and confirm the existence of the predicted deformed shells N = 162 and Z = 108.

Published

1994

40. New insights into the 243Am + 48Ca reaction products previously observed in the experiments on elements 113, 115, and 117

Author

Yu Ts, Oganessian, F Sh, Abdullin, S N, Dmitriev, J M, Gostic, J H, Hamilton, R A, Henderson, M G, Itkis, K J, Moody, A N, Polyakov, A V, Ramayya, J B, Roberto, K P, Rykaczewski, R N, Sagaidak, D A, Shaughnessy, I V, Shirokovsky, M A, Stoyer, V G, Subbotin, A M, Sukhov, Yu S, Tsyganov, V K, Utyonkov, A A, Voinov, and G K, Vostokin

Abstract

Results of a new series of experiments on the study of production cross sections and decay properties of the isotopes of element 115 in the reaction (243)Am+(48)Ca are presented. Twenty-one new decay chains originating from (288)115 were established as the product of the 3n-evaporation channel by measuring the excitation function at three excitation energies of the compound nucleus (291)115. The decay properties of all newly observed nuclei are in full agreement with those we measured in 2003. At the lowest excitation energy E*=33 MeV, for the first time we registered the product of the 2n-evaporation channel, (289)115, which was also observed previously in the reaction (249)Bk+(48)Ca as the daughter nucleus of the decay of (293)117. The maximum cross section for the production of (288)115 is found to be 8.5 pb at E*≈36 MeV.

Published

2011

41. Eleven new heaviest isotopes of elementsZ=105toZ=117identified among the products ofBk249+Ca48reactions

Author

K. P. Rykaczewski, M. G. Itkis, A. V. Ramayya, Grigory K. Vostokin, A. N. Mezentsev, M. A. Ryabinin, D. A. Shaughnessy, Julie G. Ezold, S. L. Nelson, Dennis Benker, R. N. Sagaidak, Yu. Ts. Oganessian, V. K. Utyonkov, Roger Henderson, A. M. Sukhov, P. D. Bailey, Ralf Sudowe, Yu. S. Tsyganov, M. A. Stoyer, M. E. Bennett, J. H. Hamilton, I. V. Shirokovsky, A. N. Polyakov, F. D. Riley, F. Sh. Abdullin, A. A. Voinov, R. Taylor, P. A. Wilk, C. E. Porter, James B. Roberto, S. N. Dmitriev, K. J. Moody, V. G. Subbotin, and Yu. V. Lobanov

Subjects

Physics, Nuclear physics, Nuclear reaction, Nuclear and High Energy Physics, Neutron number, Isotopes of molybdenum, Transactinide element, Neutron, Decay chain, Alpha decay, Atomic physics, Isotopes of europium

Abstract

The heaviest isotopes of elements Z = 117 to Z = 105, 294117, 293117, 290115, 289115, 286113, 285113, 282Rg, 281Rg, 278Mt, 274Bh, and 270Db, were identified by means of the Dubna gas-filled recoil separator among the products of the 249Bk + 48Ca reaction. The details of the observed six decay chains, indicating the production and decay of isotopes 293117 and 294117, are presented and discussed. The decay energies and resulting half-lives of these new nuclei show a strong rise of stability with increasing neutron number, validating the concept of the island of enhanced stability for superheavy nuclei.

Published

2011

42. Method of active correlations: Present status

Author

Yury Tsyganov, V. G. Subbotin, A. N. Polyakov, A. M. Sukhov, and A. A. Voinov

Subjects

Physics, Nuclear physics, Data acquisition, Projectile, Pointer (computer programming), Detector, Background suppression, Alpha decay, Superheavy Elements, Recoil separator

Abstract

During the recent years, at the FLNR (JINR) a successful cycle of experiments has been accomplished on the synthesis of the superheavy elements with Z=112–118 with 48Ca beam. From the viewpoint of the detection of rare decays and background suppression, this success was achieved due to the application of a new radical technique - the method of active correlations. The method employs search in a real-time mode for a pointer to a probable correlation like recoil-alpha for switching the beam off. In the case of detection in the same detector strip an additional alpha-decay event, of “beam OFF” time interval is prolonged automatically. Reasonable scenarios of developing the method are considered. PC based data acquisition system as well as the monitoring and control system of the Dubna Gas Filled Recoil Separator is considered in brief too.

Published

2010

43. Synthesis of a New Element with Atomic NumberZ=117

Author

A. N. Mezentsev, K. P. Rykaczewski, A. V. Ramayya, M. E. Bennett, Julie G. Ezold, M. A. Stoyer, K. J. Moody, S. N. Dmitriev, P. A. Wilk, C. E. Porter, James B. Roberto, J. H. Hamilton, A. N. Polyakov, S. L. Nelson, R. N. Sagaidak, A. A. Voinov, D. A. Shaughnessy, M. G. Itkis, A. M. Sukhov, V. K. Utyonkov, F. D. Riley, Dennis Benker, Yu. V. Lobanov, Yu. Ts. Oganessian, Ralf Sudowe, Yu. S. Tsyganov, Roger Henderson, P. D. Bailey, V. G. Subbotin, M. A. Ryabinin, I. V. Shirokovsky, F. Sh. Abdullin, and Grigory K. Vostokin

Subjects

Nuclear physics, Nuclear reaction, Physics, Particle decay, General Physics and Astronomy, Nuclear fusion, Transactinide element, Atomic number, Alpha decay, Chemical element, Island of stability

Abstract

The discovery of a new chemical element with atomic number Z=117 is reported. The isotopes {sup 293}117 and {sup 294}117 were produced in fusion reactions between {sup 48}Ca and {sup 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{>=}111, validating the concept of the long sought island of enhanced stability for superheavy nuclei.

Published

2010

44. New elements from Dubna

Author

Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov, F. Sh. Abdullin, A. N. Polyakov, I. V. Shirokovsky, Yu. S. Tsyganov, G. G. Gulbekian, S. L. Bogomolov, B. N. Gikal, A. N. Mezentsev, S. Iliev, V. G. Subbotin, A. M. Sukhov, A. A. Voinov, G. V. Buklanov, K. Subotic, V. I. Zagrebaev, M. G. Itkis, J. B. Patin, K. J. Moody, J. F. Wild, M. A. Stoyer, N. J. Stoyer, D. A. Shaughnessy, J. M. Kenneally, P. A. Wilk, and R. W. Lougheed

Published

2009

45. Attempt to produce element 120 in thePu244+Fe58reaction

Author

V. G. Subbotin, A. N. Mezentsev, P. A. Wilk, J. H. Landrum, M. A. Stoyer, Roger Henderson, Kenton J. Moody, A. A. Voinov, I. V. Shirokovsky, F. Sh. Abdullin, Yu. Ts. Oganessian, V. K. Utyonkov, S. N. Dmitriev, K. Subotic, Valery Zagrebaev, A. N. Polyakov, D. A. Shaughnessy, Yu. S. Tsyganov, N. J. Stoyer, J. M. Kenneally, Yu. V. Lobanov, R. N. Sagaidak, and A. M. Sukhov

Subjects

Physics, Nuclear and High Energy Physics, Analytical chemistry, Iron Isotopes, Decay chain, Alpha decay, Sensitivity (control systems), Spontaneous fission

Abstract

An experiment aimed at the synthesis of isotopes of element 120 has been performed using the $^{244}\mathrm{Pu}(^{58}\mathrm{Fe},\mathit{xn}){}^{302\ensuremath{-}x}120$ reaction. No decay chains consistent with fusion-evaporation reaction products were observed during an irradiation with a beam dose of $7.1\ifmmode\times\else\texttimes\fi{}{10}^{18} 330\text{\ensuremath{-}}\mathrm{MeV} {}^{58}\mathrm{Fe}$ projectiles. The sensitivity of the experiment corresponds to a cross section of 0.4 pb for the detection of one decay.

Published

2009

46. SYNTHESIS OF SUPERHEAVY NUCLEI IN 48<font>CA</font>-INDUCED REACTIONS

Author

J. M. Kenneally, Yu. V. Lobanov, Grigory K. Vostokin, Sergey Bogomolov, M. A. Stoyer, J. F. Wild, Yu. Ts. Oganessian, D. A. Shaughnessy, K. Subotic, M. G. Itkis, S. Iliev, V. G. Subbotin, G. G. Gulbekian, Boris Gikal, R. W. Lougheed, R. N. Sagaidak, N. J. Stoyer, Yu. S. Tsyganov, A. M. Sukhov, P. A. Wilk, F. Sh. Abdullin, A. N. Polyakov, Valery Zagrebaev, K. J. Moody, A. N. Mezentsev, J. B. Patin, A. A. Voinov, I. V. Shirokovsky, V. K. Utyonkov, and J. H. Landrum

Published

2008

47. SYNTHESIS, DECAY PROPERTIES, AND IDENTIFICATION OF SUPERHEAVY NUCLEI PRODUCED IN 48<font>CA</font>-INDUCED REACTIONS

Author

F. Sh. Abdullin, R. W. Lougheed, Dawn A. Shaughnessy, R. N. Sagaidak, V. I. Zagrebaev, Roger Henderson, A. A. Voinov, P. A. Wilk, Yu. S. Tsyganov, A. N. Polyakov, I. V. Shirokovsky, J. M. Kenneally, S. Iliev, S. L. Bogomolov, J. B. Patin, J. F. Wild, K. Subotic, A. M. Sukhov, Yu. V. Lobanov, V. G. Subbotin, B. N. Gikal, Kenton J. Moody, M. A. Stoyer, N. J. Stoyer, Yu. Ts. Oganessian, A. N. Mezentsev, V. K. Utyonkov, M. G. Itkis, J.H. Landrum, and G. G. Gulbekian

Subjects

Nuclear physics, Physics, Isotope, Theoretical models, Evaporation, Nuclide, Decay chain, Excitation

Abstract

Thirty‐four new nuclides with Z = 104–116, 118 and N = 161–177 have been synthesized in the complete‐fusion reactions of 238U, 237Np, 242,244Pu, 243Am, 245,248Cm, and 249Cf targets with 48Ca beams. The masses of evaporation residues were identified through measurements of the excitation functions of the xn‐evaporation channels and from cross bombardments. The decay properties of the new nuclei agree with those of previously known heavy nuclei and with predictions from different theoretical models. A discussion of self‐consistent interpretations of all observed decay chains originating from the parent isotopes 282,283112, 282113, 286–289114, 287,288115, 290–293116, and 294118 is presented. Decay energies and lifetimes of the neutron‐rich superheavy nuclei as well as their production cross sections indicate a considerable increase in the stability of nuclei with the approach to the theoretically predicted nuclear shells with N = 184 and Z = 114.

Published

2008

48. Synthesis of the isotope282113in theNp237+Ca48fusion reaction

Author

A. N. Polyakov, A. N. Mezentsev, Yu. Ts. Oganessian, Boris Gikal, K. Subotic, G. G. Gulbekian, Yu. S. Tsyganov, D. A. Shaughnessy, M. A. Stoyer, M. G. Itkis, K. J. Moody, R. N. Sagaidak, V. K. Utyonkov, P. A. Wilk, A. M. Sukhov, Grigory K. Vostokin, Sergey Bogomolov, J. H. Landrum, V. G. Subbotin, N. J. Stoyer, A. A. Voinov, Valery Zagrebaev, F. Sh. Abdullin, I. V. Shirokovsky, Roger Henderson, J. M. Kenneally, and Yu. V. Lobanov

Subjects

Physics, Nuclear and High Energy Physics, Isotope, Nuclear fusion, Alpha decay, Atomic physics, Spontaneous fission

Abstract

The decay properties of the new isotope ${}^{282}113$ and its daughter nuclei have been measured in the $^{237}\mathrm{Np}$($^{48}\mathrm{Ca}$, $3n$)${}^{282}113$ reaction. During an irradiation with a beam dose of $1.1\ifmmode\times\else\texttimes\fi{}{10}^{19}244$-MeV $^{48}\mathrm{Ca}$ projectiles, two decay chains originating from the odd-odd isotope ${}^{282}113$ $({E}_{\ensuremath{\alpha}}=10.63\ifmmode\pm\else\textpm\fi{}0.08\phantom{\rule{0.3em}{0ex}}\mathrm{MeV},{T}_{\ensuremath{\alpha}}={73}_{\ensuremath{-}29}^{+134}\phantom{\rule{0.3em}{0ex}}\mathrm{ms})$ were produced in the complete fusion reaction with a cross section of $0.{9}_{\ensuremath{-}0.6}^{+1.6}$ pb; these properties are all in agreement with expectations based on the results of previous experiments.

Published

2007

49. Synthesis, Decay Properties, and Identification of Superheavy Nuclei Produced in [sup 48]Ca-induced Reactions

Author

Yu. Ts. Oganessian, V. K. Utyonkov, Yu. V. Lobanov, F. Sh. Abdullin, A. N. Polyakov, R. N. Sagaidak, I. V. Shirokovsky, Yu. S. Tsyganov, A. A. Voinov, S. Iliev, V. G. Subbotin, A. M. Sukhov, G. G. Gulbekian, S. L. Bogomolov, B. N. Gikal, A. N. Mezentsev, K. Subotic, V. I. Zagrebaev, M. G. Itkis, K. J. Moody, R. A. Henderson, J. B. Patin, D. A. Shaughnessy, M. A. Stoyer, N. J. Stoyer, P. A. Wilk, J. M. Kenneally, J. H. Landrum, J. F. Wild, R. W. Lougheed, Ricardo Alarcon, Philip L. Cole, Chaden Djalali, and Fernando Umeres

Subjects

Nuclear reaction, Nuclear physics, Isotope, Chemistry, Nuclear shell model, Neutron, Decay chain, Nuclide, Atomic physics, Nucleon, Radioactive decay

Abstract

Thirty‐four new nuclides with Z = 104–116, 118 and N = 161–177 have been synthesized in the complete‐fusion reactions of 238U, 237Np, 242,244Pu, 243Am, 245,248Cm, and 249Cf targets with 48Ca beams. The masses of evaporation residues were identified through measurements of the excitation functions of the xn‐evaporation channels and from cross bombardments. The decay properties of the new nuclei agree with those of previously known heavy nuclei and with predictions from different theoretical models. A discussion of self‐consistent interpretations of all observed decay chains originating from the parent isotopes 282,283112, 282113, 286–289114, 287,288115, 290–293116, and 294118 is presented. Decay energies and lifetimes of the neutron‐rich superheavy nuclei as well as their production cross sections indicate a considerable increase in the stability of nuclei with the approach to the theoretically predicted nuclear shells with N = 184 and Z = 114.

Published

2007

50. Production and decay of the heaviest odd-Z nuclei in the249Bk +48Ca reaction

Author

A. V. Ramayya, Kenton J. Moody, D. A. Shaughnessy, J. M. Gostic, Rose A. Boll, A. A. Voinov, R. N. Sagaidak, M. A. Stoyer, A. M. Sukhov, K. P. Rykaczewski, Julie G. Ezold, Yu. Ts. Oganessian, J. H. Hamilton, M. A. Ryabinin, F. Sh. Abdullin, M. G. Itkis, J. Binder, C.W. Alexander, Yu. S. Tsyganov, K. Miernik, A. N. Polyakov, Robert Grzywacz, I. V. Shirokovsky, K. Felker, N. J. Stoyer, Roger Henderson, V. G. Subbotin, V. K. Utyonkov, David Miller, M. V. Shumeiko, James B. Roberto, Grigory K. Vostokin, and S. N. Dmitriev

Subjects

History, Decay scheme, Isotope, Chemistry, Isotopes of zirconium, Nuclide, Decay chain, Atomic physics, s-process, Beta-decay stable isobars, Magic number (physics), Computer Science Applications, Education

Abstract

The reaction of 249Bk with 48Ca has been investigated with an aim of synthesizing and studying the decay properties of isotopes of the new element 117. The experiments were performed at five projectile energies (in two runs, in 2009-2010 and 2012) and with a total beam dose of 48Ca ions of about 9x1019 The experiments yielded data on a-decay characteristics and excitation functions of the produced nuclei that establish these to be 293117 and 294117 – the products of the 4n- and 3n-evaporation channels, respectively. In total, we have observed 20 decay chains of Z=117 nuclides. The cross sections were measured to be 1.1 pb for the 3n and 2.4 pb for the 4n-reaction channel. The new 289115 events, populated by α decay of 117, demonstrate the same decay properties as those observed for 115 produced in the 243Am(48Ca,2n) reaction thus providing cross-bombardment evidence. In addition, a single decay of 294118 was observed from the reaction with 249Cf – a result of the in-growth of 249Cf in the 249Bk target. The observed decay chain of 294118 is in good agreement with decay properties obtained in 2002-2005 in the experiments with the reaction 249Cf(48Ca,3n)294118. The energies and half-lives of the odd-Z isotopes observed in the 117 decay chains together with the results obtained for lower-Z superheavy nuclei demonstrate enhancement of nuclear stability with increasing neutron number towards the predicted new magic number N=184.

Published

2015