"2"^^ . "Czechoslovak Journal of Physics" . "Adam, Jind\u0159ich" . . . "P(ME 134)" . . "[F433453635DD]" . "0011-4626" . . "Odhad \u00FAhlov\u00E9ho momentu spala\u010Dn\u00EDch rezidu\u00ED v p+Ta, Re reakc\u00EDch"@cs . "V\u00FDt\u011B\u017Eky a \u00FA\u010Dinn\u00E9 pr\u016F\u0159ezy produkce radioaktivn\u00EDch izotop\u016F jsou ur\u010Dov\u00E1ny prost\u0159ednictv\u00EDm gama aktiva\u010Dn\u00EDch m\u011B\u0159en\u00ED po oz\u00E1\u0159en\u00ED ter\u010D\u00EDk\u016F Ta a Re protony s energiemi od 100 do 660 MeV."@cs . . . . "14"^^ . "53" . "Yields and cross-sections for the radioactive isotope production have been, determined via gamma-activity measurements after irradiation of the Ta and Re targets by protons with energies from 100 to 660 MeV. Mass-distribution of the reaction products contains two wide peaks corresponded to the spallation and fission product nuclei, respectively. High-spin Hf and Lu isomers are among the detected nuclides. The spallation-residue angular momentum, I, has been estimated basing on the determined isomer-to-ground state ratio, sigma(m)/sigma(g), and using, known systematics of sigma(m)/sigma(g), versus I. Non zero value of spin I should increase a probability of fission. Measured fission-to-spallation ratio is indeed higher than predicted by the Monte Carlo code simulation without angular momenta in account." . . . "Estimation of the spallation-residue angular momentum in p+Ta, Re reactions"@en . "CZ - \u010Cesk\u00E1 republika" . "protons; spallation; radionuclides"@en . . . "-" . "Odhad \u00FAhlov\u00E9ho momentu spala\u010Dn\u00EDch rezidu\u00ED v p+Ta, Re reakc\u00EDch"@cs . "Estimation of the spallation-residue angular momentum in p+Ta, Re reactions"@en . "Karamian, S. A." . "Estimation of the spallation-residue angular momentum in p+Ta, Re reactions" . . "Estimation of the spallation-residue angular momentum in p+Ta, Re reactions" . "RIV/61389005:_____/03:00101862!RIV/2005/MSM/A49005/N" . . . . "1"^^ . "B381;B394" . "Yields and cross-sections for the radioactive isotope production have been, determined via gamma-activity measurements after irradiation of the Ta and Re targets by protons with energies from 100 to 660 MeV. Mass-distribution of the reaction products contains two wide peaks corresponded to the spallation and fission product nuclei, respectively. High-spin Hf and Lu isomers are among the detected nuclides. The spallation-residue angular momentum, I, has been estimated basing on the determined isomer-to-ground state ratio, sigma(m)/sigma(g), and using, known systematics of sigma(m)/sigma(g), versus I. Non zero value of spin I should increase a probability of fission. Measured fission-to-spallation ratio is indeed higher than predicted by the Monte Carlo code simulation without angular momenta in account."@en . "606224" . "RIV/61389005:_____/03:00101862" .