Patent Number: 041538447
Section: claims

1. Apparatus for determining the degree of spin polarization of an electron beam, in which there are provided a monocrystal of electrically conducting or semiconducting material having a surface disposed perpendicularly to the radiation direction of said electron beam and formed parallel to a crystal structure plane designed to scatter the electrons of said beam, and also means for measuring the intensity of backscattering of electrons by the monocrystal in two respective directions at complementary angles to said radiation direction of said beam, having the improvement consisting in that: (a) first means for accelerating or decelerating electrons, consisting of a plurality of electron lens elements of tubular or of diaphragm form at different electrical potentials are provided for accelerating or decelerating the electrons of said beam to velocities suitable for monochromatizing said electrom beam to a degree required in a subsequent stage;  (b) monochromatizing means downstream of said first accelerating or decelerating means are provided for monochromatizing said electron beam;  (c) second means for accelerating or decelerating electrons, consisting of electron lenses of tubular or diaphragm form, are provided and located downstream of said monochromatizing means for adjusting the energy to a value required for the scattering of the electrons of the monochromatized beam and for focussing the beam on said surface of said monocrystal;  (d) said monocrystal is arranged next in line downstream of said second accelerating or decelerating means;  (e) said means for measuring electron backscattering intensity consists essentially of at least one pair of detectors for measuring the intensity of electron beams backscattered at complementary angles from said surface of said monocrystal, and  (f) means interposed between said surface of said monocrystal and said backscattering intensity measuring means are provided for separating or deviating the low-energy portion of the backscattered electrons produced by ineleastic interaction of electrons of said beam with said monocrystal. 2. Apparatus for determining the degree of spin polarization of an electron beam as defined in claim 1, in which said means for separating or deviating the low-energy portion of the backscattered electrons produced by inelastic interaction of electrons of said beam with said monocrystal is constituted so as to provide an opposing electric field for repelling low-energy electrons. 3. Apparatus for determining the degree of spin polarization of an electron beam as defined in claim 1, in which said means for separating or deviating the low-energy portion of the backscattered electrons produced by inelastic interaction of electrons of said beam with said monocrystal is constituted so as to provide a field in front of each of said detectors for deviating the low-energy electrons away from said detectors. 4. Apparatus for determining the degree of spin polarization of an electron beam as defined in claim 1, in which said means for measuring electron backscattering intensity consists of four of said detectors adjustable for detecting backscattered electron beams, which detectors are disposed in pairs in two planes intersecting each other in the direction of the electron beam incident upon said monocrystal that are as nearly as possible perpendicular to each other. 5. Apparatus for determining the degree of spin polarization of an electron beam as defined in claim 1, in which said detectors of said means for measuring electron backscattering intensity are constituted as collector plates disposed in the hemispherical space above said monocrystal facing towards the arriving electron beam. 6. Apparatus for determining the degree of spin polarization of an electron beam as defined in claim 5, in which there are disposed electron multiplier channel plates in front of said collector plates.