1. Realization of a broad-band neutron spin filter with compressed, polarized 3He gas
- Author
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E. W. Otten, Michael Ebert, J. Becker, T. Grossmann, H. Humblot, D. Hofmann, D. Rohe, M. Steiner, Michèle Leduc, Norbert Trautmann, K. Siemensmeyer, Reinhard Surkau, Werner Heil, and F. Tasset
- Subjects
Physics ,Spin polarization ,business.industry ,Scattering ,Bragg's law ,Polarizer ,Condensed Matter Physics ,Polarization (waves) ,Neutron temperature ,Electronic, Optical and Magnetic Materials ,law.invention ,Optical pumping ,Optics ,law ,Neutron ,Electrical and Electronic Engineering ,Atomic physics ,business - Abstract
The strongly spin-dependent absorption of neutrons in nuclear spin polarized 3He opens the possibility to polarize beams of thermal and epithermal neutrons. An effective 3He neutron spin filter (NSF) requires high 3He nuclear polarization as well as a filter thickness corresponding to amount of gas in the order of 1 bar 1. We realized such a filter using direct optical pumping of metastable 3He∗ atoms in a 3He plasma at 1 mb. Metastable exchange scattering transfers the angular momentum to the whole ensemble of 3He atoms. At present 3.6 × 1018 3He-atoms s−1 are polarized up to 68%. Subsequent polarization preserving compression by a two-stage compressor system enables to prepare NSF cells of about 300 cm3 volume with 3 bar of polarized 3He within 2 h. 3He polarizations up to 53% were measured in a cell with a filter length of about 15 cm. By this cell a thermal neutron beam from the Mainz TRIGA reactor was polarized. A wavelength selective polarization analysis by means of Bragg scattering revealed a neutron polarization of 84% at a total transmission of 12% for a neutron wavelength of 1 A.
- Published
- 1997
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