Detail publikace

Isotope production rates in a thick lead target in the reaction d+Pb at 2,52 GeV

Originální název

Isotope production rates in a thick lead target in the reaction d+Pb at 2,52 GeV

Anglický název

Isotope production rates in a thick lead target in the reaction d+Pb at 2,52 GeV

Jazyk

en

Originální abstrakt

The "Energy Plus Transmutation"-setup consists of a thick cylindrical lead target of 456 mm length and diameter of 84 mm, which is surrounded by a thick layer containing 206,4 kg of natural uranium. This small-sized target-blanket-assembly resembles the geometry and the constituents of an industry-sized subcritical system for power production and nuclear waste transmutation. The irradiations of the target-blanket-assembly are performed using deuteron beams of variable energies, delivered by the Nuclotron accelerator at the Joint Institute for Nuclear Research in Dubna. Using precision gamma-spectroscopy, the amounts of isotopes of bismuth, lead and thallium, produced in the lead target during the irradiation with a deuteron beam of 2,52 GeV [1,2] have been determined. The collected data on the isotope production are compared with the predictions of nuclear-reaction- and particle-transport-codes.

Anglický abstrakt

The "Energy Plus Transmutation"-setup consists of a thick cylindrical lead target of 456 mm length and diameter of 84 mm, which is surrounded by a thick layer containing 206,4 kg of natural uranium. This small-sized target-blanket-assembly resembles the geometry and the constituents of an industry-sized subcritical system for power production and nuclear waste transmutation. The irradiations of the target-blanket-assembly are performed using deuteron beams of variable energies, delivered by the Nuclotron accelerator at the Joint Institute for Nuclear Research in Dubna. Using precision gamma-spectroscopy, the amounts of isotopes of bismuth, lead and thallium, produced in the lead target during the irradiation with a deuteron beam of 2,52 GeV [1,2] have been determined. The collected data on the isotope production are compared with the predictions of nuclear-reaction- and particle-transport-codes.

BibTex


@article{BUT158811,
  author="O. {Yordanov} and Jindřich {Adam} and Mikhail I. {Krivopustov} and Alexander A. {Solnyshkin} and Karel {Katovský}",
  title="Isotope production rates in a thick lead target in the reaction d+Pb at 2,52 GeV",
  annote="The "Energy Plus Transmutation"-setup consists of a thick cylindrical lead target of 456 mm length and diameter of 84 mm, which is surrounded by a thick layer containing 206,4 kg of natural uranium. This small-sized target-blanket-assembly resembles the geometry and the constituents of an industry-sized subcritical system for power production and nuclear waste transmutation. The irradiations of the target-blanket-assembly are performed using deuteron beams of variable energies, delivered by the Nuclotron accelerator at the Joint Institute for Nuclear Research in Dubna. Using precision gamma-spectroscopy, the amounts of isotopes of bismuth, lead and thallium, produced in the lead target during the irradiation with a deuteron beam of 2,52 GeV [1,2] have been determined. The collected data on the isotope production are compared with the predictions of nuclear-reaction- and particle-transport-codes.",
  address="IOP PUBLISHING LTD",
  chapter="158811",
  doi="10.1088/1742-6596/205/1/012052",
  howpublished="online",
  institution="IOP PUBLISHING LTD",
  number="012052",
  volume="205",
  year="2010",
  month="september",
  pages="1--6",
  publisher="IOP PUBLISHING LTD",
  type="journal article in Web of Science"
}