Measurement of the loss and depolarization probability of UCN on beryllium and diamond like carbon films

Tomas Brys, Manfred Daum, Peter Fierlinger, Peter Geltenbort, Mukul Gupta, Reinhold Henneck, Stefan Heule, Klaus Kirch, Mikhail Lasakov, Russel Mammei, Mark Makela, Axel Pichlmaier, Anatoli Serebrov, Ulrich Straumann, Robert B. Vogelaar, Cedric Wermelinger, Albert Young

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Currently several institutes worldwide are working on the development of a new generation of ultracold neutron (UCN) sources. In parallel with source development, new materials for guiding and storage of UCN are developed. Currently the best results have been achieved using 58Ni, Be, solid O2 and low temperature Fomblin oil (LTF). All of these materials have their shortcomings like cost, toxicity or difficulty of use. A novel very promising material is diamond like carbon (DLC). Several techniques exist to coat surfaces, and industrial applications (e.g., for extremely hard surfaces) are already wide spread. Preliminary investigations using neutron reflectometry at PSI and Los Alamos yielded a critical velocity for DLC of about 7 m/s thus comparable to Beryllium. A low upper limit of depolarization probability for stored polarized UCN has been measured at the PF2 facility of the Institut Laue-Langevin (ILL) by North Carolina State University (NCSU), Los Alamos National Laboratory (LANL), and Petersburg Nuclear Physics Institute (PNPI), thus making it also a good material for storage and guidance of polarized UCN. Still missing is the loss probability per bounce. We will be able to extract this number and a more stringent value for the depolarization from our experiment thus proving the suitability of DLC as a wall material for a wide range of UCN applications.

Original languageEnglish
Pages (from-to)279-281
Number of pages3
JournalJournal of Research of the National Institute of Standards and Technology
Volume110
Issue number3
DOIs
StatePublished - 2005
Externally publishedYes

Keywords

  • Depolarization
  • Diamond like carbon
  • Spin flip
  • Ultracold neutrons

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