Zobrazeno 1 - 10
of 493
pro vyhledávání: '"Khuyagbaatar J"'
Autor:
Hinde D.J., Jeung D.Y., Buete J., Cook K.J., Dasgupta M., Simenel C., Simpson E.C., Albers H.M., Carter I.P., Düllmann Ch.E., Khuyagbaatar J., Prasad E., Sengupta C., Smith J.F., Vo-Phuoc K., Walshe J., Williams E., Yakushev A.
Publikováno v:
EPJ Web of Conferences, Vol 306, p 01012 (2024)
Measured binary quasifission mass spectra in reactions with actinide nuclides show a large peak in yield near the doubly-magic 208Pb, generally attributed to enhanced binding energy causing a valley in the potential energy surface, which attracts qua
Externí odkaz:
https://doaj.org/article/67601e6235784f12abfee608f423350c
Autor:
Khuyagbaatar J.
Publikováno v:
EPJ Web of Conferences, Vol 306, p 01013 (2024)
The synthesis of superheavy elements beyond the oganesson (Og, Z = 118) remains one of the actual topics in nuclear physics. For this purpose, the fusion reactions with projectiles heavier than 48Ca, which were successfully implied for the synthesis
Externí odkaz:
https://doaj.org/article/e1e181eac68e4910b5c8301cb65532b1
Ternary fission with the emission of long-range $\alpha$ particles in fission of the heaviest nuclei
Autor:
Khuyagbaatar, J.
Publikováno v:
Phys. Rev. C 110 (2024) 014311
The most probable outcome of the ternary fission is the emission of two heavy fragments and one light-charged particle. In about 90\%, these are $\alpha$ particles, which often referred to as the long-range alpha (LRA). Such decay has been extensivel
Externí odkaz:
http://arxiv.org/abs/2408.01719
Autor:
Khuyagbaatar, J., Cantemir, R. A., Duellmann, Ch. E., Jaeger, E., Kindler, B., Krier, J., Kurz, N., Lommel, B., Schausten, B., Yakushev, A.
Publikováno v:
Phys. Rev. C 109 (2024) 034311
The radioactive decay properties of $^{242}$Es were studied with significantly improved statistics compared to available literature data. This isotope was produced in the 3n evaporation channel of the fusion reaction of $^{48}$Ca+$^{197}$Au. A half-l
Externí odkaz:
http://arxiv.org/abs/2408.01714
Autor:
Yakushev, A.1,2 a.yakushev@gsi.de, Khuyagbaatar, J.1,2, Dullmann, Ch. E.1,2,3, Block, M.1,2,3, Cantemir, R. A.1, Cox, D. M.4, Dietzel, D.1,3, Giacoppo, F.1,2, Hrabar, Y.4, Ilias, M.1,2, Jager, E.1, Krier, J.1, Krupp, D.5, Kurz, N.1, Lens, L.5, Lochner, S.1, Mokry, Ch.2,3, Mosat, P.1, Pershina, V.1, Raeder, S.1
Publikováno v:
Frontiers in Chemistry. 2024, p1-13. 13p.
Autor:
Hinde D.J., Dasgupta M., Jeung D.Y., Mohanto G., Prasad E., Simenel C., Williams E., Carter I.P., Cook K.J., Kalkal Sunil, Rafferty D.C., Simpson E.C., David H.M., Düllmann Ch.E., Khuyagbaatar J.
Publikováno v:
EPJ Web of Conferences, Vol 163, p 00023 (2017)
Superheavy elements are created through the fusion of two heavy nuclei. The large Coulomb energy that makes superheavy elements unstable also makes fusion forming a compact compound nucleus very unlikely. Instead, after sticking together for a short
Externí odkaz:
https://doaj.org/article/eeb6b1781e874a0c9f3ad2c8eeaa3bd6
Autor:
Khuyagbaatar J., Yakushev A., Düllmann Ch.E., Ackermann D., Andersson L.-L., Block M., Brand H., Even J., Forsberg U., Hartmann W., Herzberg R.-D., Heßberger F.P., Hoffmann J., Hübner A., Jäger E., Jeppsson J., Kindler B., Kratz J.V., Krier J., Kurz N., Lommel B., Maiti M., Minami S., Rudolph D., Runke J., Sarmiento L.G., Schädel M., Schausten B., Steiner J., Heidenreich T. Torres De, Uusitalo J., Wiehl N., Yakusheva V.
Publikováno v:
EPJ Web of Conferences, Vol 131, p 03003 (2016)
The fission process still remains a main factor that determines the stability of the atomic nucleus of heaviest elements. Fission half-lives vary over a wide range, 10−19−1024 s. Present experimental techniques for the synthesis of the superheavy
Externí odkaz:
https://doaj.org/article/352088dcf9f8421a8e6c2f568f2b83b0
Autor:
Eichler Robert, Asai M., Brand H., Chiera N.M., Di Nitto A., Dressler R., Düllmann Ch.E., Even J., Fangli F., Goetz M., Haba H., Hartmann W., Jäger E., Kaji D., Kanaya J., Kaneya Y., Khuyagbaatar J., Kindler B., Komori Y., Kraus B., Kratz J.V., Krier J., Kudou Y., Kurz N., Miyashita S., Morimoto K., Morita K., Murakami M., Nagame Y., Ooe K., Piguet D., Sato N., Sato T.K., Steiner J., Steinegger P., Sumita T., Takeyama M., Tanaka K., Tomitsuka T., Toyoshima A., Tsukada K., Türler A., Usoltsev I., Wakabayashi Y., Wang Y., Wiehl N., Wittwer Y., Yakushev A., Yamaki S., Yano S., Qin Z.
Publikováno v:
EPJ Web of Conferences, Vol 131, p 07005 (2016)
In recent years gas-phase chemical studies assisted by physical pre-separation allowed for the investigation of fragile single molecular species by gas-phase chromatography. The latest success with the heaviest group 6 transactinide seaborgium is hig
Externí odkaz:
https://doaj.org/article/2fe804a230ba4968aa09c0aff98cefc2
Autor:
Prasad E., Hinde D. J., Williams E., Dasgupta M., Carter I. P., Cook K. J., Jeung D. Y., Luong D. H., McNeil S., Palshetkar C. S., Rafferty D. C., Simenel C., Wakhle A., Ramachandran K., Khuyagbaatar J., Dullmann Ch. E., Lommel B., Kindler B.
Publikováno v:
EPJ Web of Conferences, Vol 123, p 03006 (2016)
Shell effects play a major role in fission. Mass-asymmetric fission observed in the spontaneous and low energy fission of actinide nuclei was explained by incorporating the fragment shell properties in liquid drop model. Asymmetric fission has also b
Externí odkaz:
https://doaj.org/article/7032e646a9134ea4b32669a5b249ddb3
Autor:
Hinde D.J., Dasgupta M., Jeung D.Y., Mohanto G., Prasad E., Simenel C., Walshe J., Wahkle A., Williams E., Carter I.P., Cook K.J., Kalkal Sunil, Rafferty D.C., Rietz R. du, Simpson E.C., David H.M., Düllmann Ch.E., Khuyagbaatar J.
Publikováno v:
EPJ Web of Conferences, Vol 131, p 04004 (2016)
Superheavy elements are created in the laboratory by the fusion of two heavy nuclei. The large Coulomb repulsion that makes superheavy elements decay also makes the fusion process that forms them very unlikely. Instead, after sticking together for a
Externí odkaz:
https://doaj.org/article/b8b3db3a7fb448ca8e183153e46459b2