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Development of UCN sources at PNPI

Author

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  • Anatolii Serebrov
  • Vitaliy Lyamkin

Abstract

This article reviews the development of various sources for ultracold neutrons (UCNs) at the Petersburg Nuclear Physics Institute (PNPI). For 45 years, PNPI has proposed and manufactured cryogenic devices for neutron conversion to low energies. Based on beryllium, hydrogen and deuterium, they can be operated in the intense radiation fields near the core of a nuclear reactor. A more recently launched UCN source development utilizes superfluid helium (He-II) as conversion medium. Initially proposed and designed for PNPI’s old WWR-M reactor, the project has been reshaped to equip the institute’s PIK reactor with a modern UCN source of this type. The projected UCN density in the closed source chamber is 2.2 × 10 3 cm −3 , which, as calculations of neutron transport show, will provide 200 cm −3 in the chambers of a neutron EDM spectrometer connected to the source by a UCN guide. Experiments at PNPI with a full-scale UCN source model have demonstrated that a heat load of 60 W can be removed from the He-II in the converter at a temperature of 1.37 K. This fact confirms the practical possibility to implement low-temperature converters under “in-pile†conditions with large heat inflows. The review concludes with a presentation of various proposed options for a He-II based UCN source at the European Spallation Source.

Suggested Citation

  • Anatolii Serebrov & Vitaliy Lyamkin, 2022. "Development of UCN sources at PNPI," Jadavpur Journal of International Relations, , vol. 24(2), pages 145-166, September.
  • Handle: RePEc:sae:jadint:v:24:y:2022:i:2:p:145-166
    DOI: 10.3233/JNR-220007
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    References listed on IDEAS

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    1. Valentina Santoro & Markus Strobl & Luca Zanini & Oliver Zimmer, 2022. "Workshop on very cold and ultra cold neutron sources for ESS," Jadavpur Journal of International Relations, , vol. 24(2), pages 73-75, September.
    2. L. Zanini & E. Dian & D.D. DiJulio & B. Folsom & E.B. Klinkby & Z. Kokai & J.I. Marquez Damian & B. Rataj & N. Rizzi & V. Santoro & M. Strothmann & A. Takibayev & R. Wagner & O. Zimmer, 2022. "Very cold and ultra cold neutron sources for ESS," Jadavpur Journal of International Relations, , vol. 24(2), pages 77-93, September.
    3. Estelle Chanel & Simon Baudoin & Marie-Hélène Baurand & Nadir Belkhier & Eric Bourgeat-Lami & Skyler Degenkolb & Maurits van der Grinten & Michael Jentschel & Victorien Joyet & Michael Kreuz & Eddy , 2022. "Concept and strategy of SuperSUN: A new ultracold neutron converter," Jadavpur Journal of International Relations, , vol. 24(2), pages 111-121, September.
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