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Paper detail

Deuterated polyethylene coatings for ultra-cold neutron applications

We report on the fabrication and use of deuterated polyethylene (dPE) as a coating material for ultra-cold neutron (UCN) storage and transport. The Fermi potential has been determined to be 214~neV and the wall loss coefficient $η$ is 1.3$\cdot$10$^4$ per wall collision. The coating technique allows for a wide range of applications and new possibilities in this field of physics. In particular, flexible and quasi-massless UCN guides with slit-less shutters and slit-less UCN storage volumes become possible. These properties enable the use in next-generation measurements of the electric dipole moment of the neutron.

preprint2015arXivOpen access
Th. BrennerP. FierlingerP. GeltenbortE. GutsmiedlA. HolleringT. LauerG. PetzoldtD. RuhstorferK. M. SeemanO. SoltwedelSt. StuiberB. TaubenheimD. WindmayerT. Zechlau
physics.ins-det
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Th. BrennerP. FierlingerP. GeltenbortE. GutsmiedlA. HolleringT. LauerG. PetzoldtD. RuhstorferK. M. SeemanO. SoltwedelSt. StuiberB. TaubenheimD. WindmayerT. Zechlau

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