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Magnetic deflection analysis of supersonic metastable atom beams

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Zeitschriftentitel: Review of Scientific Instruments
Personen und Körperschaften: Weiser, C., Siska, P. E.
In: Review of Scientific Instruments, 58, 1987, 11, S. 2124-2130
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
Instrumentation
author_facet Weiser, C.
Siska, P. E.
Weiser, C.
Siska, P. E.
author Weiser, C.
Siska, P. E.
spellingShingle Weiser, C.
Siska, P. E.
Review of Scientific Instruments
Magnetic deflection analysis of supersonic metastable atom beams
Instrumentation
author_sort weiser, c.
spelling Weiser, C. Siska, P. E. 0034-6748 1089-7623 AIP Publishing Instrumentation http://dx.doi.org/10.1063/1.1139474 <jats:p>Deflection of 3S1 and 3P2 metastable rare-gas atoms in an electron-impact-excited thermal supersonic expansion by an inhomogeneous magnetic field produces well-defined daughter beams for each M state. The deflection patterns are spatially resolved with a translatable detector and used to derive fine-structure populations in the 3P0 and 3P2 states, and to measure absolute efficiency of state selection by optical depletion. The fine-structure population ratio 3P2/3P0 is measured for electron excitation energies from 100–400 eV, showing a 20%–40% decline with increasing energy for all the rare gases. Radiative decay due to perturbation by the magnetic field appears to be negligible, but the M-state-resolved populations are unequal and asymmetric, perhaps due to Majorana transitions at the entrance to the field. The method may also be useful in polarized angular momentum studies of metastable atom–molecule collisions.</jats:p> Magnetic deflection analysis of supersonic metastable atom beams Review of Scientific Instruments
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series Review of Scientific Instruments
source_id 49
title Magnetic deflection analysis of supersonic metastable atom beams
title_unstemmed Magnetic deflection analysis of supersonic metastable atom beams
title_full Magnetic deflection analysis of supersonic metastable atom beams
title_fullStr Magnetic deflection analysis of supersonic metastable atom beams
title_full_unstemmed Magnetic deflection analysis of supersonic metastable atom beams
title_short Magnetic deflection analysis of supersonic metastable atom beams
title_sort magnetic deflection analysis of supersonic metastable atom beams
topic Instrumentation
url http://dx.doi.org/10.1063/1.1139474
publishDate 1987
physical 2124-2130
description <jats:p>Deflection of 3S1 and 3P2 metastable rare-gas atoms in an electron-impact-excited thermal supersonic expansion by an inhomogeneous magnetic field produces well-defined daughter beams for each M state. The deflection patterns are spatially resolved with a translatable detector and used to derive fine-structure populations in the 3P0 and 3P2 states, and to measure absolute efficiency of state selection by optical depletion. The fine-structure population ratio 3P2/3P0 is measured for electron excitation energies from 100–400 eV, showing a 20%–40% decline with increasing energy for all the rare gases. Radiative decay due to perturbation by the magnetic field appears to be negligible, but the M-state-resolved populations are unequal and asymmetric, perhaps due to Majorana transitions at the entrance to the field. The method may also be useful in polarized angular momentum studies of metastable atom–molecule collisions.</jats:p>
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author Weiser, C., Siska, P. E.
author_facet Weiser, C., Siska, P. E., Weiser, C., Siska, P. E.
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container_issue 11
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container_title Review of Scientific Instruments
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description <jats:p>Deflection of 3S1 and 3P2 metastable rare-gas atoms in an electron-impact-excited thermal supersonic expansion by an inhomogeneous magnetic field produces well-defined daughter beams for each M state. The deflection patterns are spatially resolved with a translatable detector and used to derive fine-structure populations in the 3P0 and 3P2 states, and to measure absolute efficiency of state selection by optical depletion. The fine-structure population ratio 3P2/3P0 is measured for electron excitation energies from 100–400 eV, showing a 20%–40% decline with increasing energy for all the rare gases. Radiative decay due to perturbation by the magnetic field appears to be negligible, but the M-state-resolved populations are unequal and asymmetric, perhaps due to Majorana transitions at the entrance to the field. The method may also be useful in polarized angular momentum studies of metastable atom–molecule collisions.</jats:p>
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imprint AIP Publishing, 1987
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spelling Weiser, C. Siska, P. E. 0034-6748 1089-7623 AIP Publishing Instrumentation http://dx.doi.org/10.1063/1.1139474 <jats:p>Deflection of 3S1 and 3P2 metastable rare-gas atoms in an electron-impact-excited thermal supersonic expansion by an inhomogeneous magnetic field produces well-defined daughter beams for each M state. The deflection patterns are spatially resolved with a translatable detector and used to derive fine-structure populations in the 3P0 and 3P2 states, and to measure absolute efficiency of state selection by optical depletion. The fine-structure population ratio 3P2/3P0 is measured for electron excitation energies from 100–400 eV, showing a 20%–40% decline with increasing energy for all the rare gases. Radiative decay due to perturbation by the magnetic field appears to be negligible, but the M-state-resolved populations are unequal and asymmetric, perhaps due to Majorana transitions at the entrance to the field. The method may also be useful in polarized angular momentum studies of metastable atom–molecule collisions.</jats:p> Magnetic deflection analysis of supersonic metastable atom beams Review of Scientific Instruments
spellingShingle Weiser, C., Siska, P. E., Review of Scientific Instruments, Magnetic deflection analysis of supersonic metastable atom beams, Instrumentation
title Magnetic deflection analysis of supersonic metastable atom beams
title_full Magnetic deflection analysis of supersonic metastable atom beams
title_fullStr Magnetic deflection analysis of supersonic metastable atom beams
title_full_unstemmed Magnetic deflection analysis of supersonic metastable atom beams
title_short Magnetic deflection analysis of supersonic metastable atom beams
title_sort magnetic deflection analysis of supersonic metastable atom beams
title_unstemmed Magnetic deflection analysis of supersonic metastable atom beams
topic Instrumentation
url http://dx.doi.org/10.1063/1.1139474