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258:. Depending on their spin the electrons have the chance to hit the ring at different positions. 1% of the electrons are scattered in the foil. Of these 1% are collected by the detector and then about 30% of the electrons hit the detector at the wrong position. Both devices work due to spin orbit coupling.
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In the most generic context, spin polarization is any alignment of the components of a non-scalar (vectorial, tensorial, spinor) field with its arguments, i.e., with the nonrelativistic three spatial or relativistic four spatiotemporal regions over which it is defined. In this sense, it also includes
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foil as a sample. Back scattered electrons are decelerated by annular optics and focused onto a ring shaped electron multiplier at about 15°. The position on the ring is recorded. This whole device is called a
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M. Kalisvaart; M. R. O'Neill; T. W. Riddle; F. B. Dunning; et al. (1977). "Electron-spin polarization in low-energy electron diffraction from tungsten (001)".
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J. Kirschner & R. Feder (1979). "Spin
Polarization in Double Diffraction of Low-Energy Electrons from W(001): Experiment and Theory".
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and any field theory that couples its constituents with the differential operators of vector analysis.
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R. Feder (1976). "Spin
Polarization in Low-Energy Electron Diffraction from W(001)".
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It may also pertain to beams of particles, produced for particular aims, such as
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of electromagnetic fields is due to spin polarization of their constituent
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Kessler, Joachim (1976). "Description of
Polarized Electrons".
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Degree to which a particle's spin aligns with a given direction
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are being researched as possible spintronic materials.
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191:. Spin polarization of
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19:For other uses, see
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