Detail publikace

DETERMINATION OF PHOTONEUTRON PRODUCTION FROM DIFFERENT TARGETS IRRADIATED BY ELECTRON BEAM

MELYAN, E. KATOVSKÝ, K. BALABEKYAN, A.

Originální název

DETERMINATION OF PHOTONEUTRON PRODUCTION FROM DIFFERENT TARGETS IRRADIATED BY ELECTRON BEAM

Typ

abstrakt

Jazyk

angličtina

Originální abstrakt

This research focused on photoneutron production determination using two different photoneutron converters BeO, D2O. Experiment was carried out on a linear electron accelerator in A. Alikhanyan National Laboratory in Yerevan, Armenia. A set of targets was irradiated by 70MeV electron beam. Reaction rates were determined as a result of investigations. Besides experimental results, a number of simulations were also conducted using MCNP software to determine reaction rates and they were compared with ones obtained from the experiment.

Klíčová slova

Photoneutron production, nuclear reactions, reaction rates, MCNP simulation

Autoři

MELYAN, E.; KATOVSKÝ, K.; BALABEKYAN, A.

Vydáno

20. 9. 2021

Nakladatel

LXXI International conference “NUCLEUS – 2021. Nuclear physics and elementary particle physics. Nuclear physics technologies"

Místo

Saint Petersburg, Russia

ISBN

978-5-9651-1357-6

Kniha

Conference “NUCLEUS – 2021. Nuclear physics and elementary particle physics. Nuclear physics technologies”

Strany od

109

Strany do

109

Strany počet

396

URL

BibTex

@misc{BUT173038,
  author="Elmira {Melyan} and Karel {Katovský} and Anahit {Balabekyan}",
  title="DETERMINATION OF PHOTONEUTRON PRODUCTION FROM DIFFERENT TARGETS IRRADIATED BY ELECTRON BEAM",
  booktitle="Conference “NUCLEUS – 2021. Nuclear physics and elementary particle physics. Nuclear physics technologies”",
  year="2021",
  pages="109--109",
  publisher="LXXI International conference “NUCLEUS – 2021. Nuclear physics and elementary particle physics.  Nuclear physics technologies{"}",
  address="Saint Petersburg, Russia",
  isbn="978-5-9651-1357-6",
  url="https://indico.cern.ch/event/1012633/attachments/2234537/3934788/book_of_abstracts_Nucleus_2021.pdf",
  note="abstract"
}